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GB/T 30438-2013 English PDF

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GB/T 30438-2013: Principles and methods for data dictionary technology of supporting modularity design
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GB/T 30438-2013399 Add to Cart 3 days Principles and methods for data dictionary technology of supporting modularity design Valid

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Basic data

Standard ID: GB/T 30438-2013 (GB/T30438-2013)
Description (Translated English): Principles and methods for data dictionary technology of supporting modularity design
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: L67
Classification of International Standard: 25.040.40
Word Count Estimation: 17,195
Quoted Standard: GB/T 7408-2005; GB/T 17645.42; GB/T 24467-2009
Regulation (derived from): National Standards Bulletin 2013 No. 27
Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China
Summary: This standard specifies the data dictionary to support modular design principle of preparation, module division principle, the module data dictionary content and requirements. This standard applies to the establishment of a modular design and preparation

GB/T 30438-2013: Principles and methods for data dictionary technology of supporting modularity design


---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Principles and methods for data dictionary technology of supporting modularity design ICS 25.040.40 L67 National Standards of People's Republic of China The modular design supports data dictionary technology Principles and Methods Issued on. 2013-12-31 2014-08-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Foreword

This standard is based on GB/T 1.1-2009 given rule drafting. This standard is proposed and managed by China National Institute of Standardization. This standard drafting units. China National Institute of Standardization, Zhejiang University, Hangzhou Steam Turbine Co., Ltd., Haier Group. The main drafters of this standard. Hongyan, Yang Qinghai, Gu Xinjian, Ji Yang, Mao Hanzhong, Zhan Junfeng, Chen Gui, Wang Zhiqiang, Liu Shouhua, FU Jian-zhong, Yin Rui books.

Introduction

Customers in product cost, quality and personalized requirements has become a common challenge faced by domestic and foreign manufacturing, modular design Design, mass customization manufacturing is the production model of the important technical basis, in line with the current situation and characteristics of China's manufacturing industry. The modular design of the core idea Is the application of the principle of similarity, the product module division, the module through some variant design or redesign to support new product design Meter, in order to meet customer demand for personalized products. To solve the structure the modular product system, to adapt to the development of domestic enterprises of all types of modular design and manufacture of urgent needs, it is necessary to make Given support data dictionary technology principles and methods of standard modular design. The modular design principle to support the preparation of the data dictionary in this standard, module partition principle, requires the preparation of the data dictionary, Modular data dictionary content and detailed requirements, and practical application of enterprises, shows a block classification module and data dictionary shows Example for China's manufacturing enterprises to carry out modular design and manufacturing provides a technical basis. The modular design supports data dictionary technology Principles and Methods

1 Scope

This standard specifies support modular design of data dictionary compilation principles, the principle of division of the module, the module content and data dictionary Claim. This standard applies to the establishment of a modular design module and data dictionary module library prepared in accordance with the present standard data modules written word Code can be used to design a modular integrated modules, management, maintenance, dissemination and sharing.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein Member. For undated references, the latest edition (including any amendments) applies to this document. GB/T 7408-2005 data elements and interchange formats - Information interchange the date and time notation GB/T 17645.42 Industrial automation systems and integration - Parts library - Part 42. Description methodology. Methodology for structuring parts families party Law Constitute rules GB/T 24467-2009 General Mechanical Components Product data dictionary hierarchy

3 Terms and Definitions

GB/T 17645.42 defined and the following terms and definitions apply to this document. 3.1 Module module Components of the system, with the typical generic independent unit determines the functions and standard interfaces. 3.2 Modular modularity From the viewpoint of the system, the application of the principle of similarity, research products (or system) structure, unified standardized principles, merge, Jane Technology, take the decomposition and combination methods, the establishment of product module system, and combined into different products (or systems) through standard interfaces between modules The whole process. 3.3 Module division modularization By functional decomposition and structural decomposition method, the decomposition product of complex multi-type, multi-linked independent module process. Note. The number and size of the structure of the functional elements contained in the module determines the size of the module as well as the ease of manufacturing the product in action. reasonably Partitioning module range is conducive to manufacturing modules, increasing module compatibility, interchangeability and versatility, expanding the use of modules, yield enhancement implementation Product diversification capacity. 3.4 Modular design modularitydesign The combination of certain elements together to form a number of modules with specific functions, these modules as the module and its versatility His products feature a variety of combinations, to form a new system, resulting in a variety of different functions or the same function, the performance of different products in the design method. 3.5 Module Library modulelibrary The modular design of the product support module repository. 3.6 Data data A formal expression of information, it is suitable for human or computer communication, interpretation, or processing. [GB/T 16656.1-2010, the definition 3.2.16] 3.7 Dictionary dictionary Contains a series of entries in the table, a meaning corresponding to an entry in the dictionary, a dictionary entry is only one meaning. [GB/T 17645.24-2003, the definition 3.32] 3.8 Category classification Depending on which certain predetermined characteristics, the systematic collection of objects into subsets. 3.9 Property attribute Describe the characteristics of the object a collection. 3.10 The identifier A symbol or a symbol set by the value of the data element composed for naming an object, and the object as far as possible indicate specific attributes. NOTE. Modify the GB/T 17645.26-2000 as defined in 3.6. Principle 4 modules compiled data dictionary 4.1 Scientific Principles Science should attribute selection module, scientific description of the module attribute information. Specific requirements are as follows. --- Scientific selection Module Properties. Module Properties meet a variety of modular design system requirements for the module properties and complete reflection of the module information; --- Property Description Module Information Science. Designing dictionary entries should reflect the correct information module features, modular design to meet the letter of the module Description and information processing requirements. 4.2 Applicability Principles Should the actual demand for modular design, including product configuration design requirements, demand information technology, life cycle management module It needs. Specific requirements are as follows. --- Configuration design needs. module data dictionary should contain the version of the module, the batch configuration information such as the validity of the design requirements; Demand --- Information Construction. Construction module data dictionary should meet the system's modular design, in particular the exchange of data between information systems And the actual needs of sharing; Demand --- module life cycle management. module data dictionary should contain priority module, the module status Module maturity life cycle Management information required. 4.3 Principle of Unity Should be for the entire product family, data dictionary system for unified planning, unified description, unified management. details as follows. --- Unified Planning. should take full account of the module product family, consider all stages of the life cycle module, module compiled in a unified planning under Block data dictionary; --- Universal Description. Data Dictionary module shall be prepared in accordance with uniform rules that describe; --- Unified Management. Responding to the preparation of the data dictionary, maintenance, revisions of unified management. 4.4 The principle of independence Module description reflects its own characteristics module, should be independent of the specific information system.

5 module partition principle

5.1 The principle of independence Should minimize the correlation between the modules, so that modules with relative independence, to meet the module design, management and independent production requirements. 5.2 Principles of moderate size Module division should meet the particle size and a moderate number of principles. Based on the relationship between the cost and the number of modules, the total cost of the best Principle, to determine the module partition granularity. 5.3 Reusability principle Under the premise to meet the relevant technical requirements as much as possible to reuse existing modules to meet cost, quality, green, etc. Life Cycle Integrated optimal. 5.4 Uniqueness of principle From a life cycle perspective should take into account the different needs of the module, the only module to determine the composition of the product. Identifier may be uniquely identified by a module All custom data this module. 5.5 Design and Technology separating separation surface coincides principle In the product development process, the design stage of the manufacturing process should be considered in the process module division as soon as possible to consider process issues, as far as possible Product design and process separation surface separation surface coincide, should consider not only the function division of the product, the process should also consider dividing the product. 5.6 Single-stage stratified principle When carrying the product breakdown structure, a module should not include another module, the module should not be nested, to simplify the effectiveness management. 5.7 "Only plus" principle For modules "only addition (add-only)", the same as the composition of the product structure stacked wood table that generates the final to meet customer needs. Modules should not be by deleting parts from other modules to generate, but you can add some features (such as hole features, etc.) to generate a new module. 5.8 generalized principle Module is a logical combination of components, and contains related design, technology, manufacturing and testing data. Module should be generalized, not only by the actual collection of parts, but also by containing only a particular special features and interfaces Of data elements or abstract composition relationship.

6 module data dictionary content and requirements

Entry Format 6.1 module data dictionary Entry module format digital dictionary should be in accordance with the provisions of GB/T 17645.42, according to the following format for each of the properties of the modules description. ---name; ---description; ---Restrictions; --- Value format. 6.1.1 Name Concise expression of the meaning of the phrase module. 6.1.2 Description Concise statement expressing the meaning of the module, in this standard is unique. 6.1.3 Constraints/Condition This is a descriptor may have the following values. M (mandatory) or O (optional). 6.1.3.1 Required (M) The property must be selected to describe the module. 6.1.3.2 Optional (O) Describing the module can select the property, you can not select it. 6.1.4 Value Format Expression of the maximum number and type (if it is a string) format or characters. Content 6.2 module data dictionary 6.2.1 Overview Modules module information including the data dictionary describes the feature information of the module, the module of the external information and the structural information of the module. Module Feature information about the module refers to the design requirements, design principles, structural design, manufacturing and other intermediate data and other information possessed by each Kind of characteristic information; information module describes the structure to achieve the required functions, a list of components contained within the module and forms relationships between Department; external information module describes the relationship between the use of the environment module, module with other modules and other information. 6.2.2 Module feature information 6.2.2.1 The main contents Feature information module includes a module identifier, module name, module definition, change authorization, version number, release build date, version description, Module function, design principles, state of maturity, design principles, lead, interface type, the key point is installed, install the key point increment, for suppliers Goods cycle, streamlining workflow, weight, weight unit, limit identification, owner, creator, process description, labeling instructions, model schematic connection relationship Department of definitions, definitions and seal packaging definitions. 6.2.2.2 module identifier Description. uniquely identifies the data dictionary identifies a module. Constraints. Required. Value Format. variable length string. NOTE. This standard does not specify a specific code formatting. 6.2.2.3 module name Description. This module concise expression the meaning of the phrase. Constraints. Required. Value format. a string of 30 alphanumeric. 6.2.2.4 Module Definition Description. Additional information related to the module description. Constraints. Required. Value Format. variable length string. 6.2.2.5 Change Authorization Description. Change the authorization number. Constraints. Required. Value Format. variable length string. 6.2.2.6 version number Description. The version number of each record after the change module to occur. Constraints. Required. Value format. a string of three numbers. 6.2.2.7 version build date Description. The new module generation date. Constraints. Required. Value format. should comply with GB/T 7408-2005 the provisions in 5.2.1.1. 6.2.2.8 Version Description Description. The information recording module change from the old to the new version, including modification of components, add and delete. Constraints. Required. Value Format. variable length string. 6.2.2.9 Function Module Description. The description of the module also has the main function. Constraints. Required. Value Format. variable length string. 6.2.2.10 Design Principles Description. describe the design principles of the module. Constraints. Optional. Value Format. variable length string. 6.2.2.11 state of maturity Description. The purpose is to identify module is in its life cycle is completed level, it represents the maturity level module data. Constraints. Required. Value Format. variable length string. 6.2.2.12 Design Principles Description. The reasons for recording the basic design and design principles. Constraints. Optional. Value Format. variable length string. 6.2.2.13 Lead Description. Module production lead time associated with the building blocks of the parts production time. Constraints. Required. Value Format. variable length string. 6.2.2.14 Interface Type Description. The description of the module and interface in the form of products, such as mechanical interface, electrical interface, an optical interface, or thermal interface information. Constraints. Required. Value Format. variable length string. 6.2.2.15 The key point installation Description. The description of the module key installed. Constraints. Optional. Value format. real array contains three elements. 6.2.2.16 key installation point increments Description. The amount of adjustments made by the installation of key points. Constraints. Optional. Value format. real array contains three elements. 6.2.2.17 Supplier Delivery Description. The vendor provides the module name of the delivery time period. Constraints. Required. Value Format. variable length string. 6.2.2.18 weight Description. The weight of the module. Constraints. Required. Value format. positive real number. 6.2.2.19 unit of weight Description. The weight of the units, such as kilograms (kg), gram (g) and the like. Constraints. Required. Value format. alphabetic characters. 6.2.2.20 limit mark Description. used to illustrate the development of the use of modules, such as research, testing, testing, production and other information. Constraints. Optional. Value Format. variable length string. 6.2.2.21 owner Description. The name of the module owners. Owner manager module is the module, he can target structure of the module, the module definition into Row related operations. Constraints. Required. Value Format. variable length string. 6.2.2.22 Creator Description. The first designer to create the name of the module. Constraints. Required. Value Format. variable length string. 6.2.2.23 Process Description Description. All products associated with process information recording module, including such as heat treatment, surface treatment, treatment process and installation plans information. Constraints. Optional. Value Format. variable length string. 6.2.2.24 Marking explanation Description. The module is used to describe the specific process requirements, labeling instructions are supplementary explanation of the module, it can be described from tolerance to process requirements Of all cases. Constraints. Required. Value Format. variable length string. 6.2.2.25 model diagram Description. The graphics module geometry of the display. According to user requirements, the geometry of the display module. Constraints. Optional. Value format. image or graphics file format. 6.2.2.26 connection relationship definitions Description. Record information forming the connections between the modules defined parts assembly or module. Constraints. Optional. Value Format. variable length string. 6.2.2.27 seal definitions Description. The composition of the recording seal definition information between modules or module parts assembly. Constraints. Optional. Value Format. variable length string. 6.2.2.28 Packing definitions Description. The module record definition information when unpacked. Constraints. Optional. Value Format. variable length string. Structural information 6.2.3 Module 6.2.3.1 The main contents Module configuration information including part number, the number of parts. 6.2.3.2 Part Number Description. List Part Number module contains. Constraints. Required. Value Format. variable length string. 6.2.3.3 the number of parts Description. the number of parts included in the module. Constraints. Required. Value format. a positive integer. External Information 6.2.4 Module 6.2.4.1 The main contents External information modules include superior product number, unit version the superior products, the effectiveness of the batch, product type, logical expression, PIN code And instructions are available. 6.2.4.2 superior product number Description. a description of all the superior assembly part numbers or installation module applications. Constraints. Required. Value Format. variable length string. Higher product unit version 6.2.4.3 Description. Description Multiple parent application modules or assemblies mount version. Constraints. Required. Value Format. variable length string. 6.2.4.4 Batch effectiveness Description. The product shows the availability of the module, the......
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