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BS ISO/IEC 9506-4:1992

Withdrawn

Withdrawn

A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.

Industrial automation systems. Manufacturing message specification Companion standard for numerical control

Available format(s)

Hardcopy , PDF

Withdrawn date

15-06-1998

Language(s)

English

Published date

15-04-1993

€371.62
Excluding VAT

Foreword
Introduction
1 Scope
2 Normative References
3 Definitions
3.1 Alarm
3.2 Device
3.3 Numerical Control (NC)
3.4 Numerical Controller
3.5 NC-CS (NC Companion Standard)
3.6 NC-CS user
3.7 NC system
3.8 Operator Interface Device
3.9 Offset
3.10 Axis
3.11 Coordinate Axes
3.12 Zero Offset
3.13 Axis Value Transformation
3.14 Coordinate System
3.15 Actual Coordinate System
3.16 Coordinate Transformation
3.17 Geometry Transformation
4 Abbreviations
5 NC Application Description
5.1 NC Specific Model
5.2 NC Specific Functions
6 NC Specific Context Mapping
6.1 Mapping Of The NC Specific Model To The VMD Object
6.2 Definition Of NC Specific Objects Which Map To
      Domains
6.3 Definition Of NC Specific Objects Which Map To
      Program Invocation
6.4 Definition Of NC Specific Objects Which Map To
      Other MMS Abstract Objects
6.5 Definition Of New MMS Abstract Objects To Support
      Other NC Specific Objects
7 Services and Protocol
7.1 Numerical Control application context definition
7.2 Numerical Control abstract syntax definition
7.3 Use of the MMS services
7.4 Definition and use of Application-specific
      Services
7.5 The Initiate Service and Protocol
7.6 End of Module
8 Standardized NC Specific Objects
8.1 Domain Objects
8.2 Program Invocation Objects
8.3 Named Variable Objects
8.4 Scattered Access Objects
8.5 Named Variable List Objects
8.6 Names Type Objects
8.7 Semaphore Objects
8.8 Operator Station Objects
8.9 Event Condition Objects
8.10 Event Action Objects
8.11 Event Enrollment Objects
8.12 Journal Objects
8.13 Other NC Specific Objects
9 Conformance
9.1 Conformance Class Description
9.2 Restrictions On MMS Optional Parameters
9.3 Conformance To Standardized Objects
9.4 Addition To MMS PICS
Annex A Dynamic Download and Coded Domains (Normative)
Annex B Extension of ISO 9506-4 To Include NC Milling
         Machine Functionality
B Introduction
B.1 Scope
B.2 References
B.3 Definitions
B.4 Symbols and Abbreviations
B.5 Application Description
B.6 NC Milling Specific Context Mapping
B.8 NC Milling Specific Standardized Objects
B.9 Conformance
Annex C Extension of ISO 9506-4 To Include Turning
         Machine Functionality (Normative)
C Introduction
C.1 Scope
C.2 References
C.3 Definitions
C.4 Symbols and Abbreviations
C.5 Application Description
C.6 NC Turning Specific Context Mapping
C.9 Conformance
Annex D Extension of ISO 9506-4 To Include Flexible
         System Functionality (Normative)
D Introduction
D.1 Scope
D.2 References
D.3 Definitions
D.4 Symbols and Abbreviations
D.5 Application Description
D.6 Flexible Systems Specific Context Mapping
D.8 Flexible Systems Specific Standardized Objects
D.9 Conformance
Annex E Example TURNING CENTER
E.1 Example TURNING CENTER
E.2 Example Milling Center In A Flexible Manufacturing
      System
E.3 Examples of Offsets
Figures
1 NC System in the Manufacturing Environment
2 NC System Components
3 NC System State Model
4 Local/Remote State
5 NC Device Control Model
6 NC Device Control Model (Single Device)
7 NC Device Control Model (3 independent Devices)
8 NC Device State Model
9 NC Controlling Process State Model
10 NC Information Model
11 Offset Classification Hierarchy
12 Zero Offset and Virtual Zero point
13 Sequence of Primitive Axis Value Transformations
14 Coordinate Transformations
15 Sequence of Primitive Geometry Transformations
16 NC Data Store Model
17 NC VMD Model
18 Data Store Mapping
19 Transitions of the Controlling Process state as a
      result of Program Invocation services
20 NC VMD Model (2 Program Invocations, 1 Device
      Domain)
21 NC VMD Model (1 Program Invocation, 2 Device
      Domains)
22 NC Milling Machine
23 Example of Tool Magazine, Tool Holder, Tools,
      Edges
24 Tool Data Object
25 Turning Machine
26 Milling Machine In A Flexible Manufacturing System
27 Example for a Parking Location with 4 Partitions
28 Example of a Pallet with 4 Partitions
29 Example of a Parking Location with a Pallet
30 Example of Parking Location, Partition, Pallet,
      Fixture, and Part Relationship
31 Means of Production Data Object
32 4 Axes Turning Center
33 Turning Center NC VMD
34 Milling Center in Flexible System
35 Milling Center NC VMD
Tables
1 Correlation between Device States and Controlling
      Process States
2 Status Coherence
3 Relation between the Local/Remote State and the
      Value of the Variable N_Remote
4 NC-specific CS parameters for Initiate

Describes the semantics of numerically controlled manufacturing devices and equipment. Describes: the use of Manufacturing Message Specifications services in NC specific applications; the model of an NC device in terms of its application, specific functions and how these functions map onto the attributes of a virtual manufacturing device (VMD). Defines; NC specific conformance in conjunction with the MMS service and parameter conformance building blocks (CBBs) required; "standardized" names for NC specific objects. Gives the NC specific syntax for MMS services which are applicable to NC operations and which allow companion standard specific parameters.

Committee
AMT/10
DocumentType
Standard
Pages
106
PublisherName
British Standards Institution
Status
Withdrawn

Standards Relationship
ISO/IEC 9506-4:1992 Identical

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