ISO/TS 13399-60:2007

TECHNICAL ISO/TS
SPECIFICATION 13399-60
First edition
2007-01-15
Cutting tool data representation
and exchange —
Part 60:
Reference dictionary for connection
systems
Représentation et échange des données relatives aux outils
coupants —
Partie 60: Dictionnaire de référence pour les systèmes de connexion

Reference number
©
ISO 2007
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ii © ISO 2007 – All rights reserved

Contents Page
Foreword. iv
Introduction . v
1 Scope . 1
2 Normative references . 2
3 Terms and definitions. 2
4 Abbreviated terms . 5
5 Representation of the ontology concepts as dictionary entries . 5
5.1 connection_interface_feature. 5
6 Properties for connection interface feature. 8
Annex A (normative) Information object registration. 9
Annex B (informative) Classification structure . 10
Annex C (informative) Class definitions . 20
Annex D (informative) Connection interface feature property definitions . 82
Annex E (informative) Illustrations of connection systems. 84
Bibliography . 122

Foreword
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 technical 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 electrotechnical 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 the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
In other circumstances, particularly when there is an urgent market requirement for such documents, a
technical committee may decide to publish other types of normative document:
⎯ an ISO Publicly Available Specification (ISO/PAS) represents an agreement between technical experts in
an ISO working group and is accepted for publication if it is approved by more than 50 % of the members
of the parent committee casting a vote;
⎯ an ISO Technical Specification (ISO/TS) represents an agreement between the members of a technical
committee and is accepted for publication if it is approved by 2/3 of the members of the committee casting
a vote.
An ISO/PAS or ISO/TS is reviewed after three years in order to decide whether it will be confirmed for a
further three years, revised to become an International Standard, or withdrawn. If the ISO/PAS or ISO/TS is
confirmed, it is reviewed again after a further three years, at which time it must either be transformed into an
International Standard or be withdrawn.
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 identifying any or all such patent rights.
ISO/TS 13399-60 was prepared by Technical Committee ISO/TC 29, Small tools.
ISO 13399 consists of the following parts, under the general title Cutting tool data representation and
exchange:
⎯ Part 1: Overview, fundamental principles and general information model
⎯ Part 2: Reference dictionary for the cutting items [Technical Specification]
⎯ Part 3: Reference dictionary for tool items [Technical Specification]
⎯ Part 4: Reference dictionary for adaptive items [Technical Specification]
⎯ Part 5: Reference dictionary for assembly items [Technical Specification]
⎯ Part 50: Reference dictionary for reference systems and common concepts [Technical Specification]
⎯ Part 60: Reference dictionary for connection systems [Technical Specification]
⎯ Part 100: Definitions, principles and methods for reference dictionaries [Technical Specification]
iv © ISO 2007 – All rights reserved

Introduction
ISO 13399 provides the means to achieve an electronic representation of cutting tool data by providing the
information structure needed to describe various data about cutting tools and cutting tool assemblies. It is
intended to facilitate the use, manipulation and exchange of cutting tool data within and between
manufacturing, distribution and usage.
This part of ISO 13399 defines the terms, properties and definitions for connection systems of cutting tools
with defined cutting edges. The purpose of this part ISO 13399 is to provide a reference dictionary to support
the use of the general information model defined in ISO 13399-1.
A cutting tool with defined cutting edges is used on a machine tool to remove workpiece material through a
shearing action at the cutting edge(s) of the tool. Cutting tool data are characteristics of the cutting tool and its
use that must be known and evaluated in order to make manufacturing decisions and to perform
manufacturing operations.
ISO 13399 includes the data representation of everything between the workpiece and the machine tool.
Information about inserts (e.g. regular and irregular shaped replaceable cutting items), solid tools (e.g. solid
drill and solid endmill), assembled tools (e.g. boring bars, indexable drills and indexable milling cutters),
adaptors (e.g. milling arbor and chucks), components (e.g. shims, screws and clamps) or any combination of
the above can be exchanged.
Possible assemblies of the components of a cutting tool are illustrated in Figure 1.
The cutting tool data described include, but are not limited to, geometrical and dimensional data, identification
and designation data, miscellaneous and spare part data, cutting material data, and component connectivity.
The use of the tool information model established by ISO 13399 will provide increased productivity for the user
in the same way as do the tools. The effective management of tool information will improve the management
of the tools themselves. Use of the tool information model will enable the identification of the “right” tool in
every operation — from tool purchase, through planning, set-up in machine-tools, maintenance and reuse of
the tools — with short lead times and with high reliability and product quality. Tool users will benefit from
improved support from the tool vendors who will be able to provide a standard information product to
accompany the tool products. Computer interfaces for information exchange will be more efficient.
The objective of ISO 13399 is to provide the means to represent the information that describes cutting tools in
a computer-sensible form that is independent of any particular computer system. Such a representation will
facilitate the processing and exchange of cutting tool data within and between different software systems and
computer platforms and support the application of this data in manufacturing planning, cutting operations and
the supply of tools. The nature of this description makes it suitable not only for neutral file exchange, but also
as a basis for implementing and sharing product databases and for archiving. The methods that are used for
these representations are those developed by ISO TC 184, Industrial automation systems and integration,
SC 4, Industrial data, for the representation of product data by using standardized information models and
reference dictionaries.
An information model is a formal specification of types of ideas, facts and processes which together describe
a portion of interest of the real world and which provides an explicit set of interpretation rules. Information is
knowledge of ideas, facts and/or processes. Data are symbols or functions that represent information for
processing purposes. Data are interpreted to extract information by using rules for how that should be done
and a dictionary to define the terms that identify the data. Everyone in a communication process must use the
same information model, the same set of explicit rules and the same dictionary in order to avoid
misunderstanding. If an information model and its dictionary are written in a computer-sensible language then
there is the additional benefit that they can be computer-processable.
An engineering information model is therefore a specification for data that establishes the meaning of that
data in a particular engineering context. A model has to be developed by formal methods to ensure that it
meets the needs of the situation that it represents. An engineering information model defines: the information
objects that represent the concepts in an engineering application, the attributes of the objects and their
relationships and the constraints that add further meaning. An information model is an abstract concept that
can be used repeatedly for any example of the real-world situation that it represents. An instance of the model
is produced when it is populated with the data items and their values that are applicable to a particular
example of that situation.
This part of ISO 13399 uses the following resources developed by ISO TC 184/SC 4:
a) the EXPRESS language according to ISO 10303-11 for defining the information model;
b) the file format for data exchange derived from the model and defined in ISO 10303-21;
c) the data dictionary defined in ISO 13584.
ISO 13399 is intended for use by manufacturers, tool vendors or producers, and developers of manufacturing
software, among others. It provides a common structure for exchanging data about cutting tools (see Figure 1),
and is intended to allow or improve several capabilities, including
⎯ provision of a common set of definitions for use in describing cutting tools and cutting tool assemblies,
⎯ the integration and sharing of cutting tool and assembly data between software applications,
⎯ direct import of vendor cutting tool data into customer databases or applications, and
⎯ a reduction in the level of effort required for manufacturers to maintain accurate and current cutting tool
information from multiple sources and for multiple applications.
Different companies use different business models to determine their need for the communication of
information about their products. For example, one cutting tool manufacturer could regrind its customers’ tools
while another could allow its customers to do the regrinding and provide the information to enable them to do
so. Therefore, the two cutting tool manufacturers could have a different set of cutting tool properties to
communicate using the information model and dictionaries provided by ISO 13399.
ISO 13399 defines only that information which could be communicated; it does not specify what information
must be communicated.
vi © ISO 2007 – All rights reserved

Figure 1 — Examples of different types of assemblies of items

TECHNICAL SPECIFICATION ISO/TS 13399-60:2007(E)

Cutting tool data representation and exchange —
Part 60:
Reference dictionary for connection systems
1 Scope
This part of ISO 13399 specifies a reference dictionary for connection systems for cutting tools, together with
their descriptive properties and domains of values.
This part of ISO 13399 specifies a reference dictionary that contains
a) definitions and identifications of the classes of connection systems for cutting tools, with an associated
classification scheme,
b) definitions and identifications of the data element types that represent the properties of connection
systems for cutting tools,
c) definitions and identifications of domains of values for describing the above data element types.
Each class, property or domain of values of this application domain constitutes an entry of the reference
dictionary defined in this part of ISO 13399. It is associated with a computer-sensible and human-readable
definition, and with a computer-sensible identification. Identification of a dictionary entry allows unambiguous
1)
reference to it from any application that implements the information model defined in ISO 13399-1.
The following is within the scope of this part of ISO 13399:
⎯ standard data that represent the various classes of connection systems for cutting tools;
⎯ standard data that represent the various properties connection systems for cutting tools;
⎯ standard data that represent domains of values used for properties of connection systems for cutting
tools;
⎯ a single implementation method by which the standard data defined in this part ISO 13399 can be
exchanged (see ISO 10303-21).
The following is not within its scope:
⎯ specialized or expert knowledge on the design and use of cutting tools;
⎯ rules used to determine the information that should be communicated;
⎯ applications where these standard data may be stored or referenced;

1) Definitions and identifications of dictionary entries are defined by means of standard data that consist of instances of
the EXPRESS entity data types defined in the common dictionary schema, resulting from a joint effort between
ISO TC 184/SC 4 and IEC SC 3D, and in its extensions according to ISO 13584-24 and ISO 13584-25.
⎯ implementation methods other that the one defined in this part of ISO 13399 by which the standard data
can be exchanged and referenced;
⎯ information models for cutting tools;
⎯ definitions of classes and properties for cutting items, tool items, assembly items, adaptive items, or for
reference systems and common concepts, these being covered by other parts of ISO 13399.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO/TS 13399-100, Cutting tool data representation and exchange — Part 100: Definitions, principles and
methods for reference dictionaries
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO/TS 13399-100 and the following
apply.
3.1
applicable property
property that is defined for some family of items and that applies to any member of this family
[ISO 13584-24]
3.2
basic semantic unit
entity that provides an absolute and universal identification of classes and data element types in an
application domain
[ISO 13584-42]
3.3
chip
material removed from a workpiece by a cutting process
[ISO/TS 13399-2]
3.4
cutting tool
device or assembly of items for removing material from a workpiece through a shearing action at the defined
cutting edge or edges of the device
NOTE A cutting tool could be the assembly of one or more adaptive items, a tool item and several cutting items on a
tool item. See Figure 1.
[ISO 13399-1]
3.5
data
representation of facts concepts or instructions in a formal manner suitable for communication, interpretation
or processing by human beings or computers
[ISO 10303-1]
2 © ISO 2007 – All rights reserved

3.6
data element type
unit of data for which the identification, description and value representation have been specified
[ISO 13584-42]
3.7
data exchange
storing, accessing, transferring and archiving of data
[ISO 10303-1]
3.8
data type
domain of values
[ISO 10303-11]
3.9
dictionary
structured set of entries with one and only one meaning corresponding to each entry and one and only one
entry identifying a single meaning
[ISO 13584-511]
NOTE In ISO 13399, a dictionary is a formal and computer-sensible representation of an ontology.
3.10
entity
class of information defined by its attributes that establishes a domain of values defined by common attributes
and constraints
NOTE Adapted from ISO 10303-11.
3.11
entity data type
representation of an entity
[ISO 10303-11]
3.12
entity instance
named unit of data that represents a unit of information within the class defined by an entity and which is a
member of the domain established by an entity data type
[ISO/TS 13399-2]
3.13
family of items
simple or generic family of items
[ISO 13584-42]
3.14
generic family of items
grouping of simple or generic families of items for the purpose of classification or for associating common
information
[ISO 13584-42]
3.15
implementation method
means for computers to process or exchange data
[ISO 10303-1]
3.16
information
facts, concepts or instructions
[ISO 10303-1]
3.17
information model
formal description of a bounded set of information to meet a specific requirement
[ISO 10303-1]
3.18
machine side
identification of a direction pointing towards the machine
3.19
machined surface
surface produced by the action of a cutting tool
[ISO 3002-1]
3.20
ontology
explicit and consensual specification of concepts of an application domain independent of any use of these
concepts
[ISO 13584-511]
NOTE In ISO 13399 a dictionary is the formal and computer-sensible representation of an ontology.
3.21
property
characteristic of a product or process that may be represented by a data element type
NOTE Adapted from ISO 13584-42.
3.22
simple family of items
set of items in which each item may be described by the same group of properties
[ISO 13584-42]
3.23
visible property
property that is defined for some family of items that may or may not be applicable to the different members of
the family
[ISO 13584-42]
3.24
workpiece
object on which a cutting action is performed
[ISO/TS 13399-2]
4 © ISO 2007 – All rights reserved

3.25
workpiece side
identification of a direction pointing towards the workpiece
[ISO/TS 13399-2]
4 Abbreviated terms
BSU basic semantic unit
DET data element type
5 Representation of the ontology concepts as dictionary entries
In the following subclauses, a concept in the ontology is identified by a name in lower-case characters. The
name of a class that represents the concept in the dictionary is identified by bold, lower-case characters with
multiple words linked by an underscore character.
EXAMPLE “connection interface feature” is the name of a concept in the ontology. connection_interface_feature is
the identifier of the class in the dictionary that represents the concept.
Each entry in the dictionary, whether a class or a property, is identified with a numerical code (BSU) that is
generated at random when the dictionary is compiled. A BSU can be made unique by the addition of a code
that is a reference to the supplier of the dictionary.
The structure of the classification is summarized in Annex B. The complete definitions of the classes in this
part of ISO 13399 are provided in Annex C. The properties applicable to these classes are defined in Annex D.
5.1 connection_interface_feature
connection_interface_feature is a generic family of those parts of a tool item or assembly item that form a
coupling to another tool item or assembly item or machine tool. Definitions and further sub-division of these
classes can be found in Annex C.
2)
connection_interface_feature has the following subclasses:
⎯ ABS_System_Komet;
⎯ AIF_Adjustable_Interface_Dihart;
⎯ AWN_Prisma_connection_Schwanog;
⎯ BFA_drill_chuck_connection;
⎯ BKA_boring_head_connection;
⎯ BKC_boring_head_connection_Coromant;
⎯ BRP_Bridgeport_connection;
2) The identifications for some of these entities are derived from commercial trade names and company names that
may be protected. Their use in this part of ISO 13399 is justified by their being in common use with no accepted generic
alternatives. This information is given for the convenience of users of this part of ISO 13399 and does not constitute an
endorsement by ISO of these products.
⎯ BTS_Block_Tool_System_Coromant;
⎯ BUF_boring_and_chamfer_system;
⎯ CBC_Coromant_bridge_connection;
⎯ CCB_Coromant_CoroBore;
⎯ CCM_Coromant_Cap_Mounting;
⎯ CCS_Coromant_Capto_system;
⎯ CDB_Coromant_Duobore;
⎯ CFB_Coromant_Fine_Boring;
⎯ CKB_Kaiser_bore_connection;
⎯ CKS_Kaiser_shank_connection;
⎯ CMB_Coromant_Modular_boring;
⎯ CMS_Coromant_Modular_Serrated_mounting;
⎯ FCM_Flexible_Coupling_Modular;
⎯ FDA_milling_arbor_connection;
⎯ FLC_flange_connection_Coromant;
⎯ FLK_flange_connector_Kennametal;
⎯ FTS_Flexible_Tooling_System_Kennametal;
⎯ GMS_Graflex_Modular_System_SECO;
⎯ GRL_Granlund_connection;
⎯ HEE_HE-/HF-system_EMUGE;
⎯ HFS_head_fitting_system_Mapal;
⎯ HSK_hollow_taper_shank;
⎯ HSZ_hollow_cylindrical_shank;
⎯ HTS_deep_drilling_system;
⎯ KKG_stub_taper;
⎯ KKH_cartridge_interface;
⎯ KMB_Kennametal_ModBore_system;
⎯ KMC_Kennametal_cartridge_mounting;
⎯ KMM_Kennametal_Micro_system;
6 © ISO 2007 – All rights reserved

⎯ KMT_KM-UTS_system_Kennametal/Widia;
⎯ KRS_Kennametal_Romicron_system;
⎯ KVT_KV_system_Kennametal;
⎯ MBS_Multi_Blade_System_Coromant;
⎯ MCS_modular_cartridge_system_Kennametal;
⎯ MEG_metric_taper;
⎯ MKG_Morse_taper;
⎯ MVS_modular_connection_system_Wohlhaupter;
⎯ NCT_Novex-NC-Tools_Walter;
⎯ PMC_prismatic_connection_Coromant;
⎯ PMD_prismatic_connection_standard;
⎯ PMK_prismatic_connection_Kennametal;
⎯ PMS_prismatic_connection_SECO;
⎯ RFX_Rotaflex_system_Widia;
⎯ SAC_screw_ connection_Coromant;
⎯ SBA_SBA-system_Komet;
⎯ SCA_SECO_cartridge_mounting;
⎯ SCR_SECO_crownlock_connection;
⎯ SKG_Steep_taper;
⎯ SMM_SECO_minimaster;
⎯ SMS_SECO_modular_serrated_connection;
⎯ SPK_holding_arbor;
⎯ SRT_SECO_R2_shank;
⎯ STH_automotive_shank;
⎯ SWB_quick_change_connection;
⎯ SZB_collet_shortened_design_Biax;
⎯ SZC_collet_connection_Coromant;
⎯ SZD_collet_connection_standard;
⎯ SZE_collet_connection_Erikson;
⎯ SZP_collet_Eminent-Perman;
⎯ SZR_collet_KSF_Roehm;
⎯ SZS_collet_Steinel_Bohrmaster;
⎯ URM_Urma_connection;
⎯ UTS_UTS_Widia;
⎯ VAS_Variant_System_Coromant;
⎯ VKT_rectangular_connection;
⎯ VLS_Varilock_System_Coromant;
⎯ ZYL_cylindrical_shank_connection;
⎯ ZYV_VDI_shank.
6 Properties for connection interface feature
The properties that are applicable to items defined in Clause 5 are defined in Annex D, where the association
of a property with a class is also specified. In the compilation of the dictionary all properties are visible
properties at the root class of the dictionary and are made applicable properties at the class level where they
apply. The names of properties that may be applicable to connection interface features, with their identification
codes (BSU), are shown in Table 1.
NOTE The value domains for properties are specified in ISO/TS 13399-100.
Table 1 — Property names and identification codes
Property name Identification code (BSU)
connection code machine side 71D102AE3B252
connection code workpiece side 71D102AE8A5A9
8 © ISO 2007 – All rights reserved

Annex A
(normative)
Information object registration
A.1 Document identification
In order to provide for unambiguous identification of an information object in an open system, the object
identifier:
{ISO technical specification 13399 part (60) version (1)}
is assigned to this part of ISO 13399.
The meaning of this value is defined in ISO/IEC 8824-1 and is described in ISO 13584-1.
A.2 Dictionary identification
The dictionary defined in this part of ISO 13399 is assigned the object identifier:
{ISO technical specification 13399 part (60) version (1) object (1) connection interface (1)}
Annex B
(informative)
Classification structure
Table B.1 shows the classification structure of the generic families in the dictionary with an expanded structure
for the class of connection interface feature. The purpose of the table is to show the relationships between the
classes related to the connection interface feature and the other classes in ISO 13399.
NOTE Annex C contains the full definition of all the classes that are relevant to the connection interface feature.
Definitions of reference systems that are used in the definition of some properties can be found in ISO/TS 13399-50.
Table B.1 — Classification structure
Classes Parent class Class BSU
cutting tool library Root class 71CE7A72B6DA7
adaptive item type 71CE7A72B6DA7 71EAD37F18F34
adjustment 71CE7A72B6DA7 71ED884159C90
assembly item type 71CE7A72B6DA7 71CE7A795C05C
bolt hole circle 71CE7A72B6DA7 71E02520881F1
connection interface feature 71CE7A72B6DA7 71DF8C37D9115
ABS System Komet 71DF8C37D9115 71ED66AC44D48
variant 01 of ABS System Komet 71ED66AC44D48 71EF07EABDA7A
variant 02 of ABS System Komet 71ED66AC44D48 71EF07EB0646B
AIF Adjustable Interface Dihart 71DF8C37D9115 71EF0BAE19FE3
variant 01 of AIF Adjustable Interface Dihart 71EF0BAE19FE3 71EF0BAE384FA
AWN Prisma connection Schwanog 71DF8C37D9115 71EF0BAE640B8
variant 01 of AWN Prisma connection Schwanog 71EF0BAE640B8 71EF0BAE84362
BFA drill chuck connection 71DF8C37D9115 71ED66B6D07DD
variant 01 of BFS drill chuck connection 71ED66B6D07DD 71EF07FF67B22
variant 02 of BFS drill chuck connection 71ED66B6D07DD 71EF07FF8342C
variant 03 of BFS drill chuck connection 71ED66B6D07DD 71EF07FF9A5F1
BKA boring head connection 71DF8C37D9115 71ED66AC8B274
variant 01 of BKA boring head connection 71ED66AC8B274 71EF07F476F41
variant 02 of BKA boring head connection 71ED66AC8B274 71EF07F4BD4DB
variant 03 of BKA boring head connection 71ED66AC8B274 71EF07F4EADA0
variant 04 of BKA boring head connection 71ED66AC8B274 71EF07F50A5F7
variant 05 of BKA boring head connection 71ED66AC8B274 71EF07F53004D
variant 06 of BKA boring head connection 71ED66AC8B274 71EF07F54F030
BKC boring head connection Coromant 71DF8C37D9115 71ED66B62F072
variant 01 of BKC boring head connection Coromant 71ED66B62F072 71EF08001A258

10 © ISO 2007 – All rights reserved

Table B.1 (continued)
Classes Parent class Class BSU
BRP Bridgeport connection 71DF8C37D9115 71ED66B6EEC90
variant 01 of BRP Bridgeport connection 71ED66B6EEC90 71EF0804A302F
BTS Block Tool System Coromant 71DF8C37D9115 71ED66B0A4FC6
variant 01 of BTS Block Tool System 71ED66B0A4FC6 71EF0804C4329
BUF boring and chamfer system 71DF8C37D9115 71EF0BAEE28FC
variant 01 of BUF boring and chamfer system 71EF0BAEE28FC 71EF0BAF5FE3B
CBC Coromant bridge connection 71DF8C37D9115 71EF0BB8284F3
variant 01 of CBC Coromant bridge connection 71EF0BB8284F3 71EF0BB840816
CCB Coromant CoroBore 71DF8C37D9115 71EF0BB5F2859
variant 01 of CCB Coromant Corobore 71EF0BB5F2859 71EF0BB61BF20
variant 02 of CCB Coromant Corobore 71EF0BB5F2859 71EF0BB6E82EB
CCM Coromant Cap Mounting 71DF8C37D9115 71EF0BB70F7C7
variant 01 of CCM Coromant Cap Mounting 71EF0BB70F7C7 71EF0BB71801D
CCS Coromant Capto system 71DF8C37D9115 71ED66B709CAF
variant 01 of CCM Coromant Capto Sysytem 71ED66B709CAF 71EF0804EB914
CDB Coromant Duobore 71DF8C37D9115 71FACDBFF369F
variant 01 of CDB Coromant Duobore 71FACDBFF369F 71FACDC0554A1
variant 02 of CDB Coromant Duobore 71FACDBFF369F 71FACDC1144DE
CFB Coromant Fine Boring 71DF8C37D9115 71EF0BB74011A
variant 01 of CFB Coromant Fine Boring 71EF0BB74011A 71EF0BB74922A
variant 02 of CFB Coromant Fine Boring 71EF0BB74011A 71EF0BB763D01
variant 03 of CFB Coromant Fine Boring 71EF0BB74011A 71EF0BB775C8C
CKB Kaiser bore connection 71DF8C37D9115 71EF0BB792410
variant 01 of CKB Kaiser bore connection 71EF0BB792410 71EF0BB7BEFEC
CKS Kaiser shank connection 71DF8C37D9115 71EF0BB7DFCAE
variant 01 of CKS Kaisernshank connection 71EF0BB7DFCAE 71EF0BB804A8A
CMS Coromant Modular Serrated mounting 71DF8C37D9115 71EF080049770
variant 01 of CMS Coromant Modular Serrated system 71EF080049770 71EF080072664
variant 02 of CMS Coromant Modular Serrated system 71EF080049770 71EF08045D1DC
CUD Coromant U-drill connection 71DF8C37D9115 71FACDC80C1ED
variant 01 of CUD Coromant U-drill connection 71FACDC80C1ED 71FACDC87FE41
FCM Flexible Coupling Modular 71DF8C37D9115 71ED66ACB787C
variant 01 of FCM flexible coupling modular system 71ED66ACB787C 71EF07F5962C7
variant 02 of FCM flexible coupling modular system 71ED66ACB787C 71EF07F5CC5E9

Table B.1 (continued)
Classes Parent class Class BSU
FDA milling arbor connection 71DF8C37D9115 71ED66ACCAECB
variant 01 of FDA milling arbor 71ED66ACCAECB 71EF07F616F76
variant 02 of FDA milling arbor 71ED66ACCAECB 71EF07F6D9E5E
variant 03 of FDA milling arbor 71ED66ACCAECB 71EF07FB0C25D
variant 11 of FDA milling arbor 71ED66ACCAECB 71EF07FB3EFA1
variant 12 of FDA milling arbor 71ED66ACCAECB 71EF07FB6287C
variant 13 of FDA milling arbor 71ED66ACCAECB 71EF07FB984BB
variant 21 of FDA milling arbor 71ED66ACCAECB 71EF07FBDC4EF
variant 22 of FDA milling arbor 71ED66ACCAECB 71EF07FC1A78F
variant 23 of FDA milling arbor 71ED66ACCAECB 71EF07FC4228F
FLC flange connection Coromant 71DF8C37D9115 71EF0BB934E10
variant 01 of FLC flange connection Coromant 71EF0BB934E10 71EF0BB94B9C4
FLK flange connector Kennametal 71DF8C37D9115 71ED66B162A10
variant 02 of FLK flange connection Kennametal 71ED66B162A10 71EF08050689D
variant 03 of FLK flange connection Kennametal 71ED66B162A10 71EF0BB99721C
variant 04 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBE406B1
variant 05 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBE6A270
variant 06 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBE88271
variant 07 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBEA15EE
variant 08 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBEBE60D
variant 09 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBEE8C20
variant 10 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBEFDE0D
variant 11 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF1AD8C
variant 12 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF43055
variant 13 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF4C436
variant 14 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF67333
variant 15 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF7F75A
variant 16 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBF9869E
variant 17 of FLK flange connection Kennametal 71ED66B162A10 71EF0BBFBD19F
FTS Flexible Tooling System 71DF8C37D9115 71ED66B653708
variant 01 of FTS Flexible Tooling System Kennametal 71ED66B653708 71EF0BBFDAEA7
GMS Graflex Modular System SECO 71DF8C37D9115 71ED66AD18B20
variant 01 of GMS Graflex modular system 71ED66AD18B20 71EF07FC94651
GRL Granlund connection 71DF8C37D9115 71ED66AD3543F
variant 01 of GRL Granlund connection 71ED66AD3543F 71EF07FD3C287
HEE HE-/HF-system EMUGE 71DF8C37D9115 71EF0BC1B193C
variant 01 of HEE HE-/HF system EMUGE 71EF0BC1B193C 71EF0BC26EC04

12 © ISO 2007 – All rights reserved

Table B.1 (continued)
Classes Parent class Class BSU
HFS head fitting system Mapal 71DF8C37D9115 71EF0BC29E34D
variant 01 of HFS head fitting system Mapal 71EF0BC29E34D 71EF0BC2B94A3
HSK hollow taper shank 71DF8C37D9115 71ED66B71F0A5
variant 01 of HSK hollow taper shank 71ED66B71F0A5 71EF0BC00EF7A
variant 02 of HSK hollow taper shank 71ED66B71F0A5 71EF0BC053A2A
variant 03 of HSK hollow taper shank 71ED66B71F0A5 71EF0BC085D25
variant 04 of HSK hollow taper shank 71ED66B71F0A5 71EF0BC0CCD59
HSZ hollow cylindrical shank 71DF8C37D9115 71ED66AD7B0D9
variant 01 of HSZ hollow cylindrical shank 71ED66AD7B0D9 71EF07FD7F301
variant 02 of HSZ hollow cylindrical shank 71ED66AD7B0D9 71EF0BC790F48
variant 03 of HSZ hollow cylindrical shank 71ED66AD7B0D9 71EF0BC7E4010
HTS deep drilling system 71DF8C37D9115 71ED66ADA5674
variant 01 of HTS deep drilling system Kennametal 71ED66ADA5674 71EF0BC823EAA
variant 02 of HTS deep drilling system Kennametal 71ED66ADA5674 71EF0BC8D1F91
KKG stub taper 71DF8C37D9115 71EF0BC91557B
variant 01 of KKG stub taper 71EF0BC91557B 71EF0BC9214D1
variant 02 of KKG stub taper 71EF0BC91557B 71EF0BC949990
KKH cartridge interface 71DF8C37D9115 71ED66B17CDFB
variant 01 of KKH ISO cartridge mounting 71ED66B17CDFB 71EF0BC984FAA
KMB Kennametal ModBore system 71DF8C37D9115 71ED66B65F546
variant 01 of KMB ModBore System Kennametal 71ED66B65F546 71EF0BC9FBDB7
variant 02 of KMB ModBore System Kennametal 71ED66B65F546 71EF0BCA2A5E6
KMC Kennametal cartridge mounting 71DF8C37D9115 71ED66B19A2E0
variant 02 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F685CEF
variant 03 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F6CC58B
variant 04 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F6E4567
variant 05 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F6F9430
variant 06 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F71619F
variant 07 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F730A50
variant 08 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F74607B
variant 09 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F75CACB
variant 10 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F773A6B
variant 11 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F78E88A
variant 12 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F7AF2F3
variant 13 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F7D7E43
variant 14 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F7F009F
variant 15 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F8038C3
variant 16 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F810899
variant 17 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F826471

Table B.1 (continued)
Classes Parent class Class BSU
variant 18 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F84D9E8
variant 19 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F858DB9
variant 20 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F86F70F
variant 21 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F884E83
variant 22 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F89C4E9
variant 23 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F8B170D
variant 24 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F8BCB2D
variant 25 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F8D168B
variant 26 of KMC Kennametal cartridge mounting 71ED66B19A2E0 71EF16F91618D
KMM Kennametal Micro system 71DF8C37D9115 71EF16F97D172
variant 01 of KMM Kennametal micro system 71EF16F97D172 71EF16F9A3BAE
variant 02 of KMM Kennametal micro system 71EF16F97D172 71EF16F9BF2B6
KMT KM-UTS system Kennametal/Widia 71DF8C37D9115 71ED66B74D6DF
variant 01 of KMT KM-UTS system Kennametal/Widia 71ED66B74D6DF 71EF16F9D45A6
variant 02 of KMT KM-UTS system Kennametal/Widia 71ED66B74D6DF 71EF16FA26760
variant 03 of KMT KM-UTS system Kennametal/Widia 71ED66B74D6DF 71EF16FE1F4DB
variant 04 of KMT KM-UTS system Kennametal/Widia 71ED66B74D6DF 71EF16FE2A60C
KRS Kennametal Romicron system 71DF8C37D9115 71ED66B983935
variant 01 of KRS Kennametal Romicron System 71ED66B983935 71EF16FE6C4DD
variant 02 of KRS Kennametal Romicron System 71ED66B983935 71EF16FE88AAB
KVT KV system Kennametal 71DF8C37D9115 71ED66B999EED
variant 01 of KVT KV system Kennametal 71ED66B999EED 71EF16FEBD7E4
variant 02 of KVT KV system Kennametal 71ED66B999EED 71EF16FED3D33
MBS Multi Blade System Coromant 71DF8C37D9115 71EF16FEFE0AF
variant 01 of MBS Multi Blade 71EF16FEFE0AF 71EF16FF1EB17
MCS modular cartridge system Kennametal 71DF8C37D9115 71ED66B1C3A98
variant 01 of MCS modular cartridge system Kennametal 71ED66B1C3A98 71EF16FF5C435
variant 02 of MCS modular cartridge system Kennametal 71ED66B1C3A98 71EF16FF75F49
variant 03 of MCS modular cartridge system Kennametal 71ED66B1C3A98 71EF16FF96879
variant 04 of MCS modular cartridge system Kennametal 71ED66B1C3A98 71EF16FFA94C6
MEG metric taper 71DF8C37D9115 71ED66B9B5DB8
variant 10 of MEG metric taper 71ED66B9B5DB8 71EF1E87A1AFC
variant 11 of MEG metric taper 71ED66B9B5DB8 71EF1E87C88D7
variant 12 of MEG metric taper 71ED66B9B5DB8 71EF1E87D60B5
variant 13 of MEG metric taper 71ED66B9B5DB8 71EF1E87FABF2
variant 20 of MEG metric taper 71ED66B9B5DB8 71EF1E88337E1
variant 21 of MEG metric taper 71ED66B9B5DB8 71EF1E884C33B
variant 22 of MEG metric taper 71ED66B9B5DB8 71EF1E886526B

14 © ISO 2007 – All rights reserved

Table B.1 (continued)
Classes Parent class Class BSU
variant 23 of MEG metric taper 71ED66B9B5DB8 71EF1E887AC99
variant 30 of MEG metric taper 71ED66B9B5DB8 71EF1E88A9D3B
variant 31 of MEG metric taper 71ED66B9B5DB8 71EF1E88D832F
variant 32 of MEG metric taper 71ED66B9B5DB8 71EF1E88F44A3
variant 33 of MEG metric taper 71ED66B9B5DB8 71EF1E89126E9
variant 40 of MEG metric taper 71ED66B9B5DB8 71EF1E8940F72
variant 41 of MEG metric taper 71ED66B9B5DB8 71EF1E895BA49
variant 42 of MEG metric taper 71ED66B9B5DB8 71EF1E8983142
variant 43 of MEG metric taper 71ED66B9B5DB8 71EF1E899E483
MKG Morse taper 71DF8C37D9115 71ED66B9CF5A0
variant 10 of MKG morse taper 71ED66B9CF5A0 71EF1E89BDD01
variant 11 of MKG morse taper 71ED66B9CF5A0 71EF1E89EB4C2
variant 12 of MKG morse taper 71ED66B9CF5A0 71EF1E8A033CA
variant 13 of MKG morse taper 71ED66B9CF5A0 71EF1E8A1AACC
variant 20 of MKG morse taper 71ED66B9CF5A0 71EF1E8A38E35
variant 21 of MKG morse taper 71ED66B9CF5A0 71EF1E8E2EE7E
variant 22 of MKG morse taper 71ED66B9CF5A0 71EF1E8E4A3B4
variant 23 of MKG morse taper 71ED66B9CF5A0 71EF1E8E797B3
variant 30 of MKG morse taper 71ED66B9CF5A0 71EF1E8E931E0
variant 31 of MKG morse taper 71ED66B9CF5A0 71EF1E8EADB27
variant 32 of MKG morse taper 71ED66B9CF5A0 71EF1E8ECB31A
variant 33 of MKG morse taper 71ED66B9CF5A0 71EF1E8EF27D8
variant 40 of MKG morse taper 71ED66B9CF5A0 71EF1E8F157CF
variant 41 of MKG morse taper 71ED66B9CF5A0 71EF1E8F42243
variant 42 of MKG morse taper 71ED66B9CF5A0 71EF1E8F6F981
variant 43 of MKG morse taper 71ED66B9CF5A0 71EF1E8F8B318
MVS modular connection system Wohlhaupter 71DF8C37D9115 71ED66AE75E58
variant 01 of MVS modular connection system Wohlhaupter 71ED66AE75E58 71EF1E8FB6234
NCT Novex-NC-Tools Walter 71DF8C37D9115 71ED66B9F6D76
variant 01 of NCT Novex-NC-Tools Walter 71ED66B9F6D76 71EF1E8FFD738
PMC prismatic connection Coromant 71DF8C37D9115 71EF1E9030508
variant 01 of PMC prismatic connection Coromant 71EF1E9030508 71EF1E906A58B
variant 02 of PMC prismatic connection Coromant 71EF1E9030508 71EF1E9082FF5
variant 04 of PMC prismatic connection Coromant 71EF1E9030508 71EF1E90F24F5
variant 07 of PMC prismatic connection Coromant 71EF1E9030508 71EF1E91159E3
PMD prismatic connection standard 71DF8C37D9115 71ED66B1DF8E1
variant 01 of PMD prismatic connection standard 71ED66B1DF8E1 71EF1E915B0BD
PMK prismatic connection Kennametal 71DF8C37D9115 71ED66B5E2C68

Table B.1 (continued)
Classes Parent class Class BSU
variant 01 of PMK prismatic connection Kennametal 71ED66B5E2C68 71EF1E918967F
PMS prismatic connection SECO 71DF8C37D9115 71EF1E91D5D4F
variant 01 of PMS prismatic connection SECO 71EF1E91D5D4F 71EF1E91EFA2F
RFX Rotaflex system Widia 71DF8C37D9115 71ED66ADD852B
...