BS ISO 14955-1:2017
Current
The latest, up-to-date edition.
Machine tools. Environmental evaluation of machine tools Design methodology for energy-efficient machine tools
Hardcopy , PDF
English
11-29-2017
Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Restriction to energy efficiency during use stage
5 Integrating environmental aspects into machine
tool design and development (design procedure
for energy-efficient machine tools)
6 Machine tool and machine tool functions
7 Design procedure for energy-efficient machine tool
8 Reporting and monitoring of results
Annex A (informative) - List of energy efficiency
improvements for machine tools
Annex B (informative) - Example of how to apply the
methodology on a machine tool
Annex C (informative) - Operating states
Bibliography
Describes the application of eco-design standards to machine tools, mainly for automatically operated and/or numerically controlled (NC) machine tools.
Committee |
MTE/1
|
DevelopmentNote |
Supersedes 12/30253289 DC. (05/2014) Supersedes 16/30333286 DC. (12/2017)
|
DocumentType |
Standard
|
Pages |
50
|
PublisherName |
British Standards Institution
|
Status |
Current
|
Supersedes |
This document constitutes the application of eco-design standards to machine tools, mainly for automatically operated and/or numerically controlled (NC) machine tools.
This document addresses the energy efficiency of machine tools during the use stage, i.e. the working life of the machine tool. Environmentally relevant stages other than the use stage and relevant impacts other than energy supplied to machine tools are not within the scope and need special treatment (e.g. according to ISO/TR14062 ).
Elements of eco-design procedure according to ISO/TR14062 are applied to machine tools. Reporting of results to users and suppliers and monitoring of results are defined.
Evaluation of energy efficiency implies quantification of the resources used, i.e. energy supplied, and of the result achieved. This document provides guidance for a reproducible quantification of the energy supplied. It does not suggest a methodology for quantifying the result achieved due to the lack of universal criteria. The result achieved in industrial application being machined workpieces, their properties (e.g. material, shape, accuracy, surface quality), the constraints of production (e.g. minimum lot size, flexibility) and other appropriate parameters for the quantification of the result achieved are intended to be determined specifically for each application or for a set of applications.
This document defines methods for setting up a process for integrating energy efficiency aspects into machine tool design. It is not intended for the comparison of machine tools; also, this document does not deal with the effect of different types of user behaviour or different manufacturing strategies during the use phase.
Lists of environmentally relevant improvements and machine tool components, control of machine tool components and combinations of machine tool components are given in AnnexA. AnnexB provides an example of application of the methodology.
NOTE Certain machining processes and specific machine tools can allow significant changes in the environmental impact of machined workpieces, e.g. material reduction for aluminium cans by application of special press technology, higher performance of compressors by machining on precision form grinders[10][13]. The environmental impact of such processes or machine tools might be less important compared to the environmental impact of the machined workpieces and their application. These changes in the environmental impact of machined workpieces are not subject of this document, but might be important if different machining processes or different machine tools are compared related to environmental impact of products. For instance, the accuracy of a machined workpiece might be a significant parameter for the environmental impact of the workpiece in its use stage, and any attempt to compare machine tools is intended to take this into account necessarily.
Standards | Relationship |
ISO 14955-1:2017 | Identical |
ISO 4413:2010 | Hydraulic fluid power General rules and safety requirements for systems and their components |
ISO 14021:2016 | Environmental labels and declarations — Self-declared environmental claims (Type II environmental labelling) |
ISO 50001:2011 | Energy management systems Requirements with guidance for use |
ISO 14031:2013 | Environmental management Environmental performance evaluation Guidelines |
ISO 11011:2013 | Compressed air — Energy efficiency — Assessment |
ISO/TR 14062:2002 | Environmental management Integrating environmental aspects into product design and development |
ISO 14001:2015 | Environmental management systems — Requirements with guidance for use |
ISO 9001:2015 | Quality management systems — Requirements |
ISO 9000:2015 | Quality management systems — Fundamentals and vocabulary |
ISO 4414:2010 | Pneumatic fluid power General rules and safety requirements for systems and their components |
ISO 14040:2006 | Environmental management Life cycle assessment Principles and framework |
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