GB/T 26498-2011 English PDF

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GB/T 26498-2011	RFQ	ASK	20 days	Industrial automation systems and integration -- Physical device control -- Dimensional Measuring Interface Standard (DMIS)	Valid

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Basic data

Standard ID: GB/T 26498-2011 (GB/T26498-2011)
Description (Translated English): Industrial automation systems and integration -- Physical device control -- Dimensional Measuring Interface Standard (DMIS)
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: J07
Classification of International Standard: 35.240.50
Word Count Estimation: 506,525
Date of Issue: 2011-05-12
Date of Implementation: 2011-10-01
Quoted Standard: GB/T 16656.1; GB/T 16656.11; GB/T 16656.21; GB/T 16656.28; GB/T 16656.31; GB/T 16656.32; GB/T 16656.34; GB/T 16656.41; GB/T 16656.42; GB/T 16656.43; GB/T 16656.44; GB/T 16656.45; GB/T 16656.46; GB/T 16656.47; GB/T 16656.49; GB/T 16656.51; GB/T 16656.54; GB/T 16656.55; GB/T 16656.56; GB/T 16656.101; GB/T 16656.105; GB/T 16656.201; GB/T 16656.202; GB/T 16656.203; GB/T 16656.501; GB/T 16656.502; GB/T 16656.503; GB/T 16656.504; GB/T 16656.505; GB/T 16656.506; GB/T 16656.507; GB/T 16656.508; GB/T 16656.509; GB/T 16656.513; GB/T 16656.520; ISO/IEC 14977-1996; ANSI/ASME B89.4-1997; ANSI/CAM-I 101-1990; ANSI Y14.26M-1987; APT ANSI X 3.37-1987; ASME Y14.5-1994
Adopted Standard: ISO 22093-2003, IDT
Regulation (derived from): Announcement of Newly Approved National Standards No. 6 of 2011
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 test devices in a computer system and two-way communication between the test data to provide a standard. Dimensional Measuring Interface Standard (DMIS) is a glossary of terms, it is to test procedures and test results to establish a neutral data format. When the initial design automation communication between devices, LOW is designed to not only read but also artificial artificial writing, to allow inspection procedures for the preparation and analysis of the test results do not use computer-aided. With enhanced high-level language extensions, DMIS language to become a functioning and DME are implemented.

GB/T 26498-2011: Industrial automation systems and integration -- Physical device control -- Dimensional Measuring Interface Standard (DMIS)

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Industrial automation systems and integration. Physical device control. Dimensional Measuring Interface Standard (DMIS) ICS 35.240.50 J07 National Standards of People's Republic of China Industrial automation systems and integration Physical device control - Dimensional Measuring Interface Standard (DMIS) DimensionalMeasuringInterfaceStandard (DMIS) (ISO 22093.2003, IDT) Issued on. 2011-05-12 2011-10-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Table of Contents

Preface Ⅶ Introduction Ⅷ 1 Scope 1 Consistency 2 2 2.1 DMIS conformance test 2 2.2 Conformance Testing Services 2 2.3 Characteristics of the file (CHFile) 2 All 2 2.4 Standards Conformance 2.5 Application of special regulations 2 2.6 conformance level 3 2.7 Conformance Statement 3 3 Normative references 3 4 Terms and definitions 3 5 Language Reference 8 5.1 syntax and structure 8 Execution and control 23 5.2 5.3 Mathematics 31 56 5.4 Device Control 69 5.5 Characteristics of the file 6 Statement Reference 84 6.1 ACLRAT 84 6.2 ALGDEF 85 6.3 ASSIGN 85 6.4 BADTST 85 6.5 BOUND 86 6.6 CALIB 87 6.7 CALL 87 6.8 CASE 88 6.9 CLMPID 89 6.10 CLMPSN 89 6.11 CLOSE 89 6.12 CMPNTGRP 90 6.13 CONST (inputformat1) 90 6.14 CONST (inputformat2) 92 6.15 CONST (inputformat3) 93 6.16 CONST (inputformat4) 93 6.17 CONST (inputformat5) 95 6.18 CONST (inputformat6) 96 6.19 CONST (inputformat7) 97 6.20 CONST (inputformat8) 99 6.21 CONST (inputformat9) 99 6.22 CONST (inputformat10) 99 6.23 CONST (inputformat11) 100 6.24 CONST (inputformat12) 101 6.25 CONST (inputformat13) 101 6.26 CRGDEF 102 6.27 CRMODE 102 6.28 CROSCL 103 6.29 CRSLCT 103 6.30 CUTCOM 104 6.31 CZONE 105 6.32 CZSLCT 105 6.33 DATDEF 106 6.34 DATSET 106 6.35 DECL 108 6.36 DECPL 109 6.37 DELETE 110 6.38 DEVICE 110 6.39 DFTCAS 111 6.40 DISPLAY 111 6.41 DMEHW 112 6.42 DMEID 112 6.43 DMESW 113 6.44 DMESWI 113 6.45 DMESWV 113 6.46 DMIS 114 6.47 DMISMD 114 6.48 DMESMN 114 6.49 DO 115 6.50 ELSE 115 6.51 ENDAT 115 6.52 ENDCAS 116 6.53 ENDDO 116 6.54 ENDFIL 116 6.55 ENDGO 116 6.56 ENDIF 116 6.57 ENDMAC 117 6.58 ENDMES 117 6.59 ENDSEL 117 6.60 ENDXTN 117 6.61 EQUATE 117 6.62 ERROR 118 6.63 EVAL 119 6.64 EXTENS 120 6.65 EXTFIL 120 6.66 FEAT/ARC (inputformat1) 120 6.67 FEAT/ARC (inputformat2) 122 6.68 FEAT/CIRCLE 123 6.69 FEAT/CONE 125 6.70 FEAT/CPARLN 126 6.71 FEAT/CYLNDR 127 6.72 FEAT/EDGEPT 129 6.73 FEAT/ELLIPS 130 6.74 FEAT/GCURVE 131 6.75 FEAT/GEOM 133 6.76 FEAT/GSURF 133 6.77 FEAT/LINE 135 6.78 FEAT/OBJECT 136 6.79 FEAT/PARPLN 137 6.80 FEAT/PATERN 139 6.81 FEAT/PLANE 140 6.82 FEAT/POINT 141 6.83 FEAT/RCTNGL 142 6.84 FEAT/SPHERE 144 6.85 FEAT/T ORUS 145 6.86 FEDRAT 147 6.87 FILDEF 148 6.88 FILNAM 148 6.89 FINPOS 149 6.90 FIXTID 149 6.91 FIXTSN 149 6.92 FLY 150 6.93 FROM 150 6.94 GECOMP 150 6.95 GEOALG 150 6.96 GEOM 152 6.97 GOHOME 153 6.98 GOTARG 153 6.99 GOTO 154 6.100 GROUP 154 6.101 IF 155 6.102 INCLUD 156 6.103 intrinsicfunctions 156 6.104 ITERAT 160 6.105 JUMPTO 161 6.106 LITDEF (inputformat1) 161 6.107 LITDEF (inputformat2) 161 6.108 LOCATE 162 6.109 LOTID 163 6.110 MACRO 164 6.111 MATDEF 164 6.112 MEAS 165 6.113 MFGDEV 167 6.114 MODE 167 6.115 OBTAIN 167 6.116 OPEN 168 6.117 OPERID 170 6.118 OUTPUT 170 6.119 PARTID 172 6.120 PARTRV 173 6.121 PARTSN 173 6.122 PLANID 173 6.123 POP 173 6.124 PRCOMP 174 6.125 PREVOP 175 6.126 PROCID 175 6.127 PROMPT 175 6.128 PSTHRU 177 6.129 PTBUFF 178 6.130 PTMEAS 179 6.131 PUSH 179 6.132 QISDEF 180 6.133 RAPID 180 6.134 READ 181 6.135 RECALL 181 6.136 REFMNT 182 6.137 REPORT 182 6.138 RESUME 184 6.139 RMEAS (inputformat1) 185 6.140 RMEAS (inputformat2) 186 6.141 RMEAS (inputformat3) 187 6.142 RMEAS (inputformat4) 189 6.143 RMEAS (inputformat5) 190 6.144 RMEAS (inputformat6) 192 6.145 RMEAS (inputformat7) 193 6.146 ROTAB 195 6.147 ROTATE 195 6.148 ROTDEF 197 6.149 ROTSET 197 6.150 SAVE 197 6.151 SCAN 198 6.152 SCNMOD 198 6.153 SCNPLN 199 6.154 SCNSET 199 6.155 SELECT 200 6.156 SENSOR 201 6.157 SNSDEF (inputformat1) 203 6.158 SNSDEF (inputformat2) 205 6.159 SNSDEF (inputformat3) 206 6.160 SNSDEF (inputformat4) 207 6.161 SNSDEF (inputformat5) 208 6.162 SNSDEF (inputformat6) 209 6.163 SNSDEF (inputformat7) 210 6.164 SNSET 212 6.165 SNSGRP 214 6.166 SNSLCT 214 6.167 SNSMNT 216 6.168 TECOMP 216 6.169 TEXT 217 6.170 THLDEF 218 6.171 TOL/ANGL 218 6.172 TOL/ANGLB 219 6.173 TOL/ANGLR 219 6.174 TOL/CIRLTY 220 6.175 TOL/COMPOS 221 6.176 TOL/CONCEN 222 6.177 TOL/CORTOL 222 6.178 TOL/CPROFS 223 6.179 TOL/CRNOUT 225 6.180 TOL/CYLCTY 225 6.181 TOL/DIAM 226 6.182 TOL/DISTB 226 6.183 TOL/FLAT 228 6.184 TOL/GTOL 228 6.185 TOL/PARLEL 231 6.186 TOL/PERP 232 6.187 TOL/POS 233 6.188 TOL/PROFL 235 6.189 TOL/PROFP 236 6.190 TOL/PROFS 236 6.191 TOL/RAD 237 6.192 TOL/STRGHT 238 6.193 TOL/SYM 239 6.194 TOL/T RNOUT 240 6.195 TOL/USETOL 241 6.196 TOL/WIDTH 241 6.197 TOOLDF 242 6.198 TRANS 243 6.199 UNITS 244 6.200 VALUE 245 6.201 VFORM 252 6.202 WINDEF (inputformat1) 253 6.203 WINDEF (inputformat2) 253 6.204 WKPLAN 254 6.205 WRIST 254 6.206 WRITE 255 6.207 XTERN 256 6.208 XTRACT 256 Appendix A (Informative Appendix) DMIS sample code block 257 Annex B (informative) Description of the illustration 296 Annex C (normative) standard characterization file 348 Annex D (informative) characteristics of the file extension 461 Appendix E (normative) Scanning Reference 463 Index 479

Foreword

This standard is identical with ISO 22093.2003 "Industrial automation systems and integration - Physical device control - Dimensional Measuring Interface Standard" (DMIS) (in English). The standard of technical content and composition and structure of ISO 22093.2003 is consistent, in the preparation of the format in line with our national standard GB/T 1.1-2000 "Standardization Guide Part 1. Standard structure and drafting the rules." Our system is based on national standards Statutory requirements and for ease of use, made the following editorial changes. --- The "ISO 22093.2003" to "GB/T 26498"; --- Remove the ISO 22093.2003 Foreword, and in accordance with the requirements of national standards for the preparation redrafting the foreword; --- The ISO 22093.2003 Chapter 3, "Normative references" in the introductory phrase to GB/T 1.1-2000 stipulated cited Lead; --- ISO 22093.2003 process inspection/statement section index Quality Information System "CLAMPID" should "CLMPID", in the present Standard has been modified; --- Which has been translated into national standards with international standards in this standard appears renumbered national standard number, and the corresponding national standard International standard version uses quasi-placed in parentheses after the number of national standards, ease of use and access. International standard unconverted Approved leave; --- Deletion of the original text does not meet the standard of written words. This standard is a normative appendix Appendix C, Annex A, Annex B, Appendix D, Appendix E is informative appendix. The standard proposed by China Machinery Industry Federation. The standard automation systems and integration by the National Standardization Technical Committee (SAC/TC159) centralized. Drafting of this standard. Beijing Machinery Industry Automation Research Institute, Beijing Machine Tool Research Institute. The main drafters of this standard. Zhangyuan Kai, Liu Ying, Yang book reviews.

Introduction

DMIS will provide a test program passes to the size measuring device and the measured value and the process returns to the analysis of data collected and/or naturalization Vocabulary file system. A device interfaces and other devices can be used directly DMIS vocabulary, may also have a pre-processor to its own DMIS native data format to format, and/or the DIMS format to post-processor through its own data structure. In Figure 1, there is described a use DMIS format as a data exchange standard environment. 1, a test program can To create a number of ways. Create an examination procedure may be assisted CAD system, the non-image systems, automated system, or hand Construction workers. A programming system may require a pre-processor to program into DMIS format. Such a program may DMIS inspection Running in different sizes measuring equipment (DME) on. In Figure 1, DMEⅠ DMIS device has a pre-processor and post-processor DMIS converting data into its own unique data format. DMEⅣ equipment DMIS as its own native format and therefore does not Require pre-processor and post-processor. Similarly, a host computer is used to control devices and DMEⅢ DMEⅡ equipment. The Host There are post-processor to decode DMIS program and drive two DME equipment, or through DMIS format, or by some sort of user set Defined data exchange format. It can be subjected to a variety of different situations in DMIS format for transferring data back as a result. For example, data may be directly DMIS Form or transmitted through the post-processor. As a result the following data is typically transmitted to the analysis system and/or storage system, such as a mass The amount of information systems (QIS). Manual interface show DMIS programs can be written by hand and manual analysis results without the use of computer-aided. In addition, many other Applications can use DMIS data exchange format. DMIS implementation depends on the individual user. DMIS simply defines a neutral data exchange format that can DMIS ASCII-file system from a transfer to another support. The method of transmission, storage and management of these files by user Lai. This version includes a drive DMIS CMM, video test equipment and a discrete mechanical and electronic components of the size and power Statements mixing process verification system needs can test. DMIS aims to provide an exchange for all size measuring device standard. Further applications can be extended to support performance. 1) expression and robots for workpiece measurement. 2) additional terms for the verification process and the adjustment process in the closed-loop manufacturing unit. The first edition of ISO standard DMIS has been completely re-organized former American National Standard DMIS3.0ANSI/CAM-I 101-1995. In order to be consistent with part ISO /IEC Guide 3, it requires such restructuring. In addition to this restructuring, all from DMIS 3.0ANSI/CAM-I101-1995 published since been approved changes have been included. This release includes the following aspects Additional features. sensor definition, classification sensor element, compound positioning, CAD connectivity, soft function measurement, quality information systems, various lengths PROMPT statement to relax and use operator interface limits. The main changes included in the approved Chapter 7; although reorganize We do more inclined to recommend changes, the rest of the text does not make significant changes. DMIS National Standards Committee confirmed their support and participation European DMIS User Group (EDUG) developed DMIS04.0 version. Significant changes are listed below. (Labelname) allows the use of a period in the label name. "." ACLRAT input format is changed. ALGDEF additional statement is used to define an algorithm, and assign it a label name. BADTST new statement is used to capture the specified error. Format profile profile changes become extended Backus - Naur Form. See 5.5 and Appendix C. CMPNTGRP additional statement for combining a plurality of sensor elements together, as a single component handling. CONST (inputformat4) scalable performance. CONST (inputformat8) statement is used to build a new offset feature. CONST (inputformat9) new statement for soft function measurements. CONST (inputformat10) new statement for soft function measurements. CONST (inputformat11) statement is used to copy a feature new entity and convert it to another coordinate system. CONST (inputformat12) statement is used to build a new circle on a real vertebral bodies. CONST (inputformat13) to build a new statement to the nearest point from a nominal point by positioning the CAD geometry. CROSCL new statement to improve the performance of rotating tool stations. DECL add a vector (VECTOR) variable types and multidimensional arrays. DECPL new statement is used to define the decimal output precision. DMESW increase the delay (DELAY) as a sub-word option. DMISMD now DMIS version of this statement is mandatory. DMISMN now DMIS version of this statement is mandatory. EQUATE new statement to make two equal coordinate system. ERROR several changes to improve error capture. EXTENS new statement to define the extended sensor. EXTFIL this standard after a major release, SYS times the word has been deleted. FEAT/ARC (inputformat1) arc must be removed and restrictions on the plane parallel to the plane of the current work. FEAT/ARC (inputformat2) arc must be removed and restrictions on the plane parallel to the plane of the current work. FEAT/EDGEPT statement to define a new edge point. FEAT/GEOM new statements for use have been previously defined geometry to define a feature. FEAT/T ORUS new statement is used to define a torus feature. Add this statement also brings to CONST statements (Inputformat1), GEOALG statement, MEAS statement, RMEAS statement (inputformat5), TOL/DIAM statement TOL/GTOL statements and 5.3.2.1.1 changes. FEDRAT input format is changed. Fig marked marked all the figures in order to be consistent with the renaming ISO format. FILNAM The DMIS version of this statement is now mandatory. FLY additional statement is used to set or disable continuous motion mode of the controller. GECOMP new statement is used to open or close the geometric correction. GEOM new statement to define CAD geometry related properties. GOTO statement GOTO extended performance. GROUP statement to define a new set of previous good calibration sensor. More changes for internal function returns system information. ITERAT new statement for complex positioning. Label name length extended to 64 characters. See 5.1.2.2. LOCATE new statement for complex positioning. MATDEF new statement is used as a function of matching the specified parameters. POP new statement to retrieve information from a variety of system memory. PROMPT new statement prompts the operator input. PUSH new statement is used to save various system information in memory. QISDEF new statement using the Quality Information System (QIS). REFMNT install the sensor mounting member is defined reference point. REPORT for the enhanced reporting capabilities, increased multiple times words. RESUME new statement is used to recover from the error. RMEAS (inputformat7) new statement is used to measure edge points. SENSOR statement to define a new sensor element can be measured. SNSDEF (inputformat6) X ray sensor definition and all references to the X-ray sensor from the next major DMIS Post deleted. SNSDEF (inputformat7) additional input format used to construct a sensor from mechanical wrist and components. SNSGRP new statement is used to define a set of sensor elements. Mechanical wrist angle SNSLCT improved format for specifying; Contacts; characteristic axis; i, j, k, ang_tol; sensor group. The length of the original sentence statement length limit of 256 characters, has now been removed. See 5.1.6. TECOMP to increase the coefficient of thermal expansion of the parts transfer performance of the output file. THLDEF increased mechanical wrist and expansion to the definition of the sensor mount/converter. TOL/ANGLR modified input format to permit a second reference orientation tolerance characteristics. Also increased tolerance for all Cylindrical Azimuth tolerance feature on the ability to specify a tolerance band of parallel plane. After TOL/COMPOS changes consistent with ASMEY14.5-1994. TOL/CORTOL times RADAIL word RADIUS has been replaced. RADIUS is a sub-word typographical errors. In this RADIUS and REDIAL situation next word has the same definition. And sub-word RADIUS REDIAL will DMIS version in the same Co-exist. Secondary RADIUS word from the next major release DMIS deleted. TOL/GTOL new statement for soft function measurements. TOL/PARLEL modified input format to permit a second reference orientation tolerance characteristics. Also increased tolerance for all Cylindrical Azimuth tolerance feature on the ability to specify a tolerance band of parallel plane. TOL/PERP modified input format to permit a second reference orientation tolerance characteristics. Also increased tolerance for all Cylindrical special Azimuth tolerance levy on the ability to specify a tolerance band of parallel plane. TOL/POS views RADAIL word RADIUS has been replaced. RADIUS is a sub-word typographical errors. In this case, RADIUS and REDIAL next word has the same definition. RADIUS and REDIAL second word in the same DMIS version CPC Deposit. Secondary RADIUS word from the next major release DMIS deleted. TOL/PROFS var_3 an option; dev, AVGDEV changed AVGDEV, dev. UNITS a major change to allow multiple UNITS statements in a program. See 5.4.1.7. VALUE major changes have been made to gain access to tolerance values, when there may be more than a tolerance value, the return of various information. VFORM increase the ability var_3. WRIST new statement is used to define mechanical wrist rotation and offset. XTRACT new statement for extracting features from the full clearance curve or surface. Industrial automation systems and integration Physical device control - Dimensional Measuring Interface Standard (DMIS)

1 Scope

This standard is intended to test data between computer systems and test equipment to provide a standard two-way communication. Measure access Interface standard (DMIS) is a glossary of terms, it is for the testing procedures and test results to establish a neutral data format. Figure 1 DMIS environment ......

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