ISO 10303-216-2003 Industrial automation systems and integration - Product data representation and exchange - Part 216 Application protocol Ship moulded forms《工.pdf

1、 Reference number ISO 10303-216:2003(E) ISO 2003INTERNATIONAL STANDARD ISO 10303-216 First edition 2003-08-01 Industrial automation systems and integration Product data representation and exchange Part 216: Application protocol: Ship moulded forms Systmes dautomatisation industrielle et intgration R

2、eprsentation et change de donnes de produits Partie 216: Protocole dapplication: Formes moules de navires ISO 10303-216:2003(E) PDF disclaimer This PDF file may contain embedded typefaces. In accordance with Adobes licensing policy, this file may be printed or viewed but shall not be edited unless t

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6、ng photocopying and microfilm, without permission in writing from either ISO at the address below or ISOs member body in the country of the requester. ISO copyright office Case postale 56 CH-1211 Geneva 20 Tel. + 41 22 749 01 11 Fax + 41 22 749 09 47 E-mail copyrightiso.org Web www.iso.org Published

7、 in Switzerland ii ISO 2003 All rights reservedISO 10303-216:2003(E) ISO 2003 All rights reserved iiiContents Page 1 S c o p e 1 2 N o r m a t i v e r e f e r e n c e s 3 3 T e r m s , d e f i n i t i o n s a n d a b b r e v i a t i o n s 4 3.1 Terms defined in ISO 10303-1 4 3.2 Terms defined in ISO

8、 10303-31 . 5 3.3 Terms defined in ISO 10303-42 . 6 3.4 Other terms and definitions . 6 3.5 Abbreviations 1 3 4 I n f o r m a t i o n r e q u i r e m e n t s . 1 3 4.1 Units of functionality 1 4 4.1.1 basic_geometry . 1 5 4.1.2 configuration_management 1 5 4.1.3 definitions . 1 6 4.1.4 external_refe

9、rences 1 6 4.1.5 hull_class_applicability . 1 7 4.1.6 hydrostatics 1 7 4.1.7 items . 1 8 4.1.8 location_concepts . 1 8 4.1.9 offset_table_representations . 1 9 4.1.10 ship_design_parameter 2 0 4.1.11 ship_general_characteristics 2 0 4.1.12 ship_measures 2 1 4.1.13 ship_moulded_forms 2 1 4.1.14 surfa

10、ce_representations 2 2 4.1.15 wireframe_representations . 2 2 4.2 Application objects 2 3 4.3 Application assertions . 1 6 3 5 A p p l i c a t i o n i n t e r p r e t e d m o d e l . 1 8 0 5.1 Mapping specification . 1 8 0 5.2 AIM EXPRESS short listing 394 6 C o n f o r m a n c e r e q u i r e m e n

11、 t s. 6 0 1 Annex A (normative) AIM EXPRESS expanded listing . 612 A n n e x B ( n o r m a t i v e ) A I M s h o r t n a m e s . 7 8 8 Annex C (normative) Implementation method specific requirements . 7 9 7 A n n e x D ( n o r m a t i v e ) P r o t o c o l I m p l e m e n t a t i o n C o n f o r m a

12、 n c e S t a t e m e n t ( P I C S ) p r o f o r m a 7 9 8 A n n e x E ( n o r m a t i v e ) I n f o r m a t i o n o b j e c t r e g i s t r a t i o n . 8 0 0ISO 10303-216:2003(E) iv ISO 2003 All rights reservedA n n e x F ( i n f o r m a t i v e ) A p p l i c a t i o n a c t i v i t y m o d e l . 8

13、 0 1 A n n e x G ( i n f o r m a t i v e ) A p p l i c a t i o n r e f e r e n c e m o d e l . 8 2 8 Annex H (informative) AIM EXPRESS-G . 854 A n n e x J ( i n f o r m a t i v e ) C o m p u t e r i n t e r p r e t a b l e l i s t i n g s 8 8 1 A n n e x K ( i n f o r m a t i v e ) A p p l i c a t i

14、 o n p r o t o c o l u s a g e g u i d e . 8 8 2 A n n e x L ( i n f o r m a t i v e ) T e c h n i c a l d i s c u s s i o n s. 8 8 3 B i b l i o g r a p h y 9 0 0 I n d e x 9 0 1 Fi g u r e s F i g u r e 1 S h i p b u i l d i n g a p p l i c a t i o n p r o t o c o l s x F i g u r e 2 D a t a p l a

15、 n n i n g m o d e l x i i F i g u r e 3 S h i p m o u l d e d f o r m s o v e r v i e w . 1 F i g u r e 4 B i l g e k e e l 2 6 F i g u r e 5 S h a f t b o s s i n g s. 2 7 F i g u r e 6 S h a f t s t r u t 2 8 F i g u r e 7 S h a f t s t r u t s . 2 9 F i g u r e 8 K e e l d i m e n s i o n s . 3

16、3 Figure 9 Dimensions of the bulbous bow . 3 5 Figure 10 Global axis placements . 5 8 F i g u r e 1 1 T r a n s v e r s e m e t a - c e n t r e 6 8 Figure 12 Measuring shell thickness 7 0 F i g u r e 1 3 L o c a l c o o r d i n a t e s y s t e m 7 4 F i g u r e 1 4 M i d s h i p t u m b l e. 7 6 Fig

17、ure 15 Ship hull with bulbous bow and thruster tunnels . 7 9 Figure 16 Ship hull with bulbous bow . 8 3 F i g u r e 1 7 B u l k h e a d s a n d d e c k s 8 4 Figure 18 Double bottom . 8 5 F i g u r e 1 9 O u t e r a n d i n n e r b o t t o m w i t h p r o f i l e s 8 5 Figure 20 Double ship hull 8 6

18、 F i g u r e 2 1 F r a m e s a n d d e c k s . 8 7 F i g u r e 2 2 G i r d e r s . 8 8 Figure 23 Rudder and propeller 8 9 F i g u r e 2 4 S c r e w p r o p e l l e r m o d e l . 8 9 F i g u r e 2 5 T h r u s t e r 9 0 F i g u r e 2 6 D e c k s a n d s u p e r s t r u c t u r e . 9 0 F i g u r e 2 7

19、T r a n s o m s t e r n 9 1 F i g u r e 2 8 T r a n s v e r s e b u l k h e a d s 9 1 F i g u r e 2 9 V e r t i c a l a x i s p r o p e l l e r 1 0 2 Figure 30 Vertical axis propeller technology . 1 0 3 F i g u r e 3 1 P r o p e l l e r l o c a t i o n 1 0 4ISO 10303-216:2003(E) ISO 2003 All rights

20、reserved vF i g u r e 3 2 P r o p e l l e r d i m e n s i o n s . 1 0 5 F i g u r e 3 3 C o n t r o l l a b l e p r o p e l l e r b l a d e 1 0 8 F i g u r e 3 4 F i x e d p r o p e l l e r b l a d e . 1 0 9 F i g u r e 3 5 D u c t e d p r o p e l l e r. 1 1 0 F i g u r e 3 6 C o n t r o l l a b l e

21、 s c r e w p r o p e l l e r . 1 1 2 Figure 37 Rudder dimensions . 1 1 4 F i g u r e 3 8 S h i p c u r v e s . 1 1 9 F i g u r e 3 9 B u t t o c k l i n e s 1 2 0 F i g u r e 4 0 S t a t i o n l i n e s 1 2 2 F i g u r e 4 1 W a t e r l i n e s 1 2 2 Figure 42 Ship hull, rudder and propeller 1 2 6 F

22、 i g u r e 4 3 S h i p h u l l d i m e n s i o n s . 1 2 8 F i g u r e 4 4 S h i p p o i n t s . 1 3 0 F i g u r e 4 5 S h i p t y p e s 1 4 1 F i g u r e 4 6 S h i p t y p e s 1 4 2 Figure 47 Spacing position . 1 4 6 Figure 48 Surface representation 1 5 1 F i g u r e 4 9 T h r u s t e r p r o p e l

23、 l e r 1 5 2 Figure 50 Form stability . 1 5 3 F i g u r e 5 1 W i r e f r a m e 1 5 9 F i g u r e F . 1 I D E F 0 B a s i c n o t a t i o n 8 0 1 F i g u r e F . 2 N o d e A 0 - m o u l d e d f o r m l i f e c y c l e 8 1 4 F i g u r e F . 3 N o d e A 0 - p e r f o r m s h i p l i f e c y c l e. 8 1

24、 5 F i g u r e F . 4 N o d e A 1 - s p e c i f y s h i p . 8 1 6 F i g u r e F . 5 N o d e A 1 2 - p r e p a r e b i d. 8 1 7 Figure F.6 Node A122 - create preliminary design 8 1 8 Figure F.7 Node A1221 - create preliminary hull form . 8 1 9 Figure F.8 Node A12214 - generate initial hull form defini

25、tion 8 2 0 Figure F.9 Node A1223 - estimate hydrodynamics and powering . 8 2 1 Figure F.10 Node 12231 - estimate resistance and powering . 8 2 2 Figure F.11 Node A2 - complete and approve ship design . 8 2 3 Figure F.12 Node A22 - finalize and approve hull form 8 2 4 Figure F.13 Node A23 - finalize

26、and approve hydrodynamics and powering 8 2 5 Figure F.14 Node A3 - produce and inspect a ship. 8 2 6 Figure F.15 Node A34 - test ship 8 2 7 Figure G.1 ARM EXPRESS-G diagram 1 of 25. 829 Figure G.2 ARM EXPRESS-G diagram 2 of 25. 830 Figure G.3 ARM EXPRESS-G diagram 3 of 25. 831 Figure G.4 ARM EXPRESS

27、-G diagram 4 of 25. 832 Figure G.5 ARM EXPRESS-G diagram 5 of 25. 833 Figure G.6 ARM EXPRESS-G diagram 6 of 25. 834 Figure G.7 ARM EXPRESS-G diagram 7 of 25. 835 Figure G.8 ARM EXPRESS-G diagram 8 of 25. 836 Figure G.9 ARM EXPRESS-G diagram 9 of 25. 837 Figure G.10 ARM EXPRESS-G diagram 10 of 25. 83

28、8 Figure G.11 ARM EXPRESS-G diagram 11 of 25. 839 Figure G.12 ARM EXPRESS-G diagram 12 of 25. 840 Figure G.13 ARM EXPRESS-G diagram 13 of 25. 841 Figure G.14 ARM EXPRESS-G diagram 14 of 25. 842ISO 10303-216:2003(E) vi ISO 2003 All rights reservedFigure G.15 ARM EXPRESS-G diagram 15 of 25. 843 Figure

29、 G.16 ARM EXPRESS-G diagram 16 of 25. 844 Figure G.17 ARM EXPRESS-G diagram 17 of 25. 845 Figure G.18 ARM EXPRESS-G diagram 18 of 25. 846 Figure G.19 ARM EXPRESS-G diagram 19 of 25. 847 Figure G.20 ARM EXPRESS-G diagram 20 of 25. 848 Figure G.21 ARM EXPRESS-G diagram 21 of 25. 849 Figure G.22 ARM EX

30、PRESS-G diagram 22 of 25. 850 Figure G.23 ARM EXPRESS-G diagram 23 of 25. 851 Figure G.24 ARM EXPRESS-G diagram 24 of 25. 852 Figure G.25 ARM EXPRESS-G diagram 25 of 25. 853 Figure H.1 application context - AIM diagram 1 of 26 in EXPRESS-G 855 Figure H.2 product definition - AIM diagram 2 of 26 in E

31、XPRESS-G . 8 5 6 Figure H.3 property definition - AIM diagram 3 of 26 in EXPRESS-G 857 Figure H.4 representation - AIM diagram 4 of 26 in EXPRESS-G 8 5 8 Figure H.5 action - AIM diagram 5 of 26 in EXPRESS-G . 859 Figure H.6 person and organization - AIM diagram 6 of 26 in EXPRESS-G 860 Figure H.7 pe

32、rson and organization assignment - AIM diagram 7 of 26 in EXPRESS-G . 8 6 1 Figure H.8 approval - AIM diagram 8 of 26 in EXPRESS-G . 862 Figure H.9 date and time - AIM diagram 9 of 26 in EXPRESS-G . 863 Figure H.10 classification assignment and group - AIM diagram 10 of 26 in EXPRESS-G . . . 864 Fig

33、ure H.11 identification assignment external source - AIM diagram 11 of 26 in EXPRESS-G8 6 5 Figure H.12 document - AIM diagram 12 of 26 in EXPRESS-G 866 Figure H.13 measure with unit - AIM diagram 13 of 26 in EXPRESS-G . 8 6 7 Figure H.14 measure value - AIM diagram 14 of 26 in EXPRESS-G 868 Figure

34、H.15 geometric and topological representation - AIM diagram 15 of 26 in EXPRESS-G8 6 9 Figure H.16 point - AIM diagram 16 of 26 in EXPRESS-G . 870 Figure H.17 placement - AIM diagram 17 of 26 in EXPRESS-G . 8 7 1 Figure H.18 curve - AIM diagram 18 of 26 in EXPRESS-G . 872 Figure H.19 bounded curve -

35、 AIM diagram 19 of 26 in EXPRESS-G 873 Figure H.20 surface - AIM diagram 20 of 26 in EXPRESS-G 874 Figure H.21 elementary surfaceAIM diagram 21 of 26 in EXPRESS-G 8 7 5 Figure H.22 bounded surface - AIM diagram 22 of 26 in EXPRESS-G 876 Figure H.23 solid model and shell - AIM diagram 23 of 26 in EXP

36、RESS-G 877 Figure H.24 topology - AIM diagram 24 of 26 in EXPRESS-G 878 Figure H.25 name attribute and role association - AIM diagram 25 of 26 in EXPRESS-G 8 7 9 Figure H.26 id and description attribute - AIM diagram 26 of 26 in EXPRESS-G 8 8 0 Figure L.1 Ship Product Model . 8 8 4 Figure L.2 Struct

37、ure of this part of ISO 10303 8 8 5 F i g u r e L . 3 M o d e l i n g f r a m e w o r k. 8 8 8 F i g u r e L . 4 L i f e c y c l e c o n c e p t . 8 8 9 F i g u r e L . 5 R e d e c l a r a t i o n o f a t t r i b u t e s 8 8 9 Ta b le s T a b l e 1 K e y m a p p i n g s f o r A P 2 1 6 . 1 8 1 Table

38、 2 Conformance classes . 6 0 2ISO 10303-216:2003(E) ISO 2003 All rights reserved viiTable 3 Conformance class elements . 6 0 2 Table B.1 AIM short names of entities 7 8 8 Table L.7 ARM measures and corresponding AIM measures and units 8 9 1ISO 10303-216:2003(E) viii ISO 2003 All rights reservedForew

39、ord ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Each member body interested in a subject for which a techni

40、cal committee has been established has the right to be represented on that committee. International organizations, governmental and non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of e

41、lectrotechnical standardization. International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2. The main task of technical committees is to prepare International Standards. Draft International Standards adopted by the technical committees are circulated to

42、the member bodies for voting. Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote. Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. ISO shall not be held responsible for i

43、dentifying any or all such patent rights. ISO/IEC 10303-216 was prepared by Technical Committee ISO/IEC/TC 184, Industrial automation systems and integration, Subcommittee SC 4, Industrial data. This International Standard is organized as a series of parts, each published separately. The structure o

44、f this International Standard is described in ISO 10303-1. Each part of this International Standard is a member of one of the following series: description methods, implementation methods, conformance testing methodology and framework, integrated generic resources, integrated application resources,

45、application protocols, abstract test suites, application interpreted constructs, and application modules. This part is a member of the 200 series. A complete list of parts of ISO 10303 is available from the Internet: ISO 10303-216:2003(E) ISO 2003 All rights reserved ixIntroduction ISO 10303 is an I

46、nternational Standard for the computer-interpretable representation of product information and for the exchange of product data. The objective is to provide a neutral mechanism capable of describing products throughout their life cycle. This mechanism is suitable not only for neutral file exchange,

47、but also as a basis for implementing and sharing product databases, and as a basis for archiving. This part of ISO 10303 is a member of the application protocol series. This part of ISO 10303 specifies an application protocol (AP) for ship moulded forms and related hydrostatic properties. The defini

48、tion of ship moulded forms supports the geometrical representation of the ship hull, propellers, rudders, appendages, and internal structures of the ship. This part of ISO 10303 is one of a series of shipbuilding application protocols, that together aim to provide an integrated computer interpretable product model for ships. The series of shipbuilding application protocols assumes that the ship product model can be divided into separate ship systems that each covers a key element of the ship for its whole life cycle. These key elements are: ship moulded forms, ship arrangements, ship