Produktionsteknik

Kommittébeteckning: SIS/TK 280 (Information och automation i produktlivscykeln)
Källa: ISO
Svarsdatum: den 18 jun 2018
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This part of ISO 10303 specifies the use of the integrated resources necessary for the scope and information requirements for the representation of engineering property data that are used for product design, product validation and other purposes.

NOTE 1 The application activity model in Annex F provides a graphical representation of the processes and information flows that are the basis for the definition of the scope of this part of ISO 10303.

The following are within the scope of this part of ISO 10303:
-   descriptions and definitions of the manufactured product, the sample of the product and the testable version of the sample;

-   description of the composition and substance of the product;

-   description of the processes used in the measurement;

-   descriptions of the data values produced by the measurement, with the specification of the conditions in which the data is valid;

-   references to standards and other documents wherein sampling, measurement and other details of testing and measurement processes can be specified or described;

-   descriptions and qualifications of the personnel and or organizations responsible for the measurement;

-   specification of the requirements, conditions and tolerances to be satisfied in the measurement and a description of the outcome;

-   descriptions of the locations of the measurement process and the effectivity of the results.

-   descriptions of the approval that establishes the validity of the measurements and the use of the properties for product design, design validation and other product characteristics such as structural integrity.

NOTE 2 Data representations described by this part of ISO 10303 might need to be archived to meet legal and regulatory requirements and to meet quality objectives.

The following are outside the scope of this part of ISO 10303:
-   data describing rules, guidelines and expert knowledge in the testing of products;

-   names of properties and test methods;

-   data describing why a decision was made to use a particular process;

-   scheduling data for measurement processes;

-   algorithms used for data evaluation and data processing.

NOTE 3 The names and definitions of properties and test methods are assumed to be provided in computer processable dictionaries, conforming to ISO 13584 Parts Libraries, which classify measurement methods and their associated property types.

Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 19 jun 2018
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This part of ISO 230 defines four tests, which are:

- an environmental temperature variation error (ETVE) test;

- a test for thermal distortion caused by rotating spindles;

- a test for thermal distortion caused by moving linear axes;

- a test for thermal distortion caused by rotary motion of components.

The tests for thermal distortion caused by moving linear axes (see clause 7) are applicable to numerically controlled (NC) machines only and are designed to quantify the effects of thermal expansion and contraction as well as the rotational deformation of structure. For practical reasons, the test methods described in clause 7 apply to machines with linear axes up to 2 000 mm in length. If they are used for machines with axes longer than 2 000 mm, a representative length of 2 000 mm in the normal range of each axis should be chosen for the tests.

The tests correspond to “drift test procedure” as described in A.4.2 of ISO/TR 16015, applied for machine tools.

Kommittébeteckning: SIS/TK 116 (Oorganiska ytbeläggningar)
Källa: ISO
Svarsdatum: den 25 jun 2018
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This document gives guidelines for determining the average surface density over a measured area of anodic oxide or of a coating deposited autocatalytically, mechanically, by chemical conversion, by electrodeposition, by hot dip galvanizing and by chemical or physical vapour deposition using gravimetric and other chemical analysis procedures that have attained some degree of national or international standardization.

A variety of procedures are described and include:

— gravimetric procedures for chemical or electrochemical dissolution of the coating or the substrate to determine the coating surface density;

— gravimetric procedures for weighing the uncoated substrate and the coated (finished) specimen to determine the coating surface density;

— analytical procedures that utilize dissolution of the coating for determination of the coating surface density by instrumental chemical analysis methods.

With the exception of the gravimetric method described in ISO 3892 this document does not give the measurement uncertainties of the methods cited.

Ämnesområden: Numeriskt styrda maskiner
Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 29 jun 2018
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This document specifies, with reference to ISO 230‐1 and ISO 230‐7, the geometric tests for general‐purpose, numerically controlled (NC) turning machines and turning centres with vertical workholding spindles, as well as the corresponding applicable tolerances.

This document explains different concepts or configurations and common features of NC turning machines and turning centres with vertical workholding spindles. It also provides a terminology and designation of controlled axes (see Figures 1, 2, 3, and 4).

This document deals only with the verification of the accuracy of the machine. It does not apply to the operational testing of the machine (e.g. vibration, abnormal noise, stick slip motion of components) nor to machine characteristics (e.g. speeds, feeds). Tests not concerning the geometric accuracy of the machine are dealt with in other parts of ISO 13041.

Ämnesområden: Fleroperationsmaskiner
Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 21 jul 2018
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This document specifies the requirements of anti-collision devices and systems installed on tower cranes (as defined in EN 14439) to avoid the risks of collision between several cranes in service, between a crane in use and fixed obstacles, and over prohibited zones.

It also specifies the requirements for working range limiting devices.

Anti-collision devices and systems and working range limiting devices according to this document are safety components.

It applies to anti-collision devices manufactured after the publication of this document.

NOTE For anti-collision systems used to avoid the risk of collision with power lines, additional requirements might be necessary.

This document defines the safety characteristics and requirements of anti-collision devices and systems intended for installation on self-erecting tower cranes and tower cranes erected from parts.

In particular:

— performance level;

— information to be provided by the sensors installed on the crane;

— operation, particularly in the event of failure, override and free jib slewing states of a crane;

— type of communication between devices;

— information for the crane operator and outside indicator.

It also specifies the requirements for marking the device or the system and the content of the instructions for use.

The significant hazards covered by this document are identified in Clause 4.

This document is not applicable to anti-collision devices and systems which are manufactured before the date of publication by CEN of this document.

Ämnesområden: Driftmaskiner
Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 1 aug 2018
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This document specifies, with reference to ISO 230-1, the geometric tests on internal type broaching machines with horizontal Z-axis providing the main cutting motion.

ISO 6480 also specifies the applicable tolerances corresponding to the tests mentioned above for normal-accuracy horizontal internal type broaching machines.

This document explains concepts or configurations and common features of horizontal internal type broaching machines. It also provides related terminology and designation of axes.

ISO 6480 deals only with the verification of the accuracy of the machine. It does not apply to the operational testing of the machine (e.g. vibration, abnormal noise, stick-slip motion of components), nor to machine characteristics (e.g. speeds, feeds) as such checks are generally carried out before testing the accuracy.

Ämnesområden: Driftmaskiner
Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 1 aug 2018
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This document specifies, with reference to ISO 230-1, the geometric tests on surface type broaching machines with vertical Z-axis providing the main cutting motion.

ISO 6481 also specifies the applicable tolerances corresponding to the tests mentioned above for normal-accuracy vertical surface type broaching machines.

This document explains different concepts or configurations and common features of vertical surface type broaching machines. It also provides related terminology and designation of axes.

ISO 6481 deals only with the verification of the accuracy of the machine. It does not apply to the operational testing of the machine (e.g. vibration, abnormal noise, stick-slip motion of components), nor to machine characteristics (e.g. speeds, feeds) as such checks are generally carried out before testing the accuracy.

Ämnesområden: Driftmaskiner
Kommittébeteckning: SIS/TK 491 (Uppmätning av verktygsmaskiner)
Källa: ISO
Svarsdatum: den 1 aug 2018
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This document specifies, with reference to ISO 230-1, the geometric tests on vertical internal type broaching machines with vertical Z-axis providing the main cutting motion.

ISO 6779 also specifies the applicable tolerances corresponding to the tests mentioned above for normal-accuracy vertical internal type broaching machines.

This document explains concepts or configurations and common features of vertical internal type broaching machines. It also provides related terminology and designation of axes.

ISO 6779 deals only with the verification of the accuracy of the machine. It does not apply to the operational testing of the machine (e.g. vibration, abnormal noise, stick-slip motion of components), nor to machine characteristics (e.g. speeds, feeds) as such checks are generally carried out before testing the accuracy.