Metalliteollisuuden Standardisointiyhdistys

 

Tämä standardi koskee hitaasti liikkuvan ajoneuvon kilven kiinnitystä traktoreihin ja maatalouskoneisiin siten kuin siitä on erikseen määrätty.

 

Tässä standardissa esitetään yksivaiheiselle työkonekytkimelle (A-kehyskytkimelle), nostolaitteelle, mekaaniselle voimansiirrolle, hydrauliselle voimansiirrolle ja työkoneen hallintahydrauliikalle asetettavia vaatimuksia. Standardi koskee pieniä kaksiakselisia traktoreita, n.k. pien- ja taajamatraktoreita, joita käytetään pääasiassa puistoje, suurehkojen kiinteistöjen pihojen ja katualueiden sekä hautausmaiden hoidossa, esim. puhtaanapidossa, ruohonleikkauksessa, lumitöissä ja kuljetuksissa.

 

Tässä standardissa esitetään työkoneiden sähköisessä kaukosäädössä tarvittavan sähkövirran saanti ja kaukosäätölaitteen johdotus traktorissa ja kytkentä työkoneeseen sekä kaukosäätölaitteen sijoittaminen traktorin ohjaamoon.Tämä standardi koskee traktoreita ja niihin kytkettäviä työkoneita, joissa on sähköisiä kaukosäätölaitteita.

 

 

This Document deals with whole body vibration as a significant hazard. It also specifies the methods for determining the vibration emission transmitted to the whole body of drivers standing and/or seated on freely moveable GSE, when driving for purposes of type evaluation, declaration and methods of verifying vibration emission. The test results are not applicable to the determination of whole body vibration exposure of persons. This Document is intended to be used in conjunction with the other parts of EN 1915, and with the relevant part of EN 12312.

 

This document specifies a method to measure sound power by using sound intensity measurements on a measurement surface which encloses the sound source. This document provides guidelines on the acoustical environment, ambient noise, measurement surface, and number of measurements. The installation categories are generally designed to represent the physical orientation of a fan installed in accordance with ISO 5801, ISO 13350 and also defined in ISO 13349-1. This document is applicable to fans defined in ISO 5801 and ISO 13349-1. This document is limited to the determination of airborne sound emission for the specified installation categories. Vibration is not measured, nor is the sensitivity of airborne sound emission to vibration effects determined. The sizes of the fan, which can be tested in accordance with this document are limited only by the practical aspects of the test installations.

 

This document specifies a laboratory performance test method for power assembly tools (referred throughout the document as “tools”) for installing threaded fasteners. It provides a method for the measurement of torque repeatability (scatter) It gives instructions on equipment parameters, what to test for and how to evaluate and present the test data. It is applicable to tools It is not applicable to The relationship between torque measurements and clamp force-based tests is commented on in Annex A. The use of tools using discontinuous operation of the motor to provide torque impulses is discussed in Annex B. It requires manufacturers to perform tests over their defined torque range of the tool; however, it allows users to perform single point tests in order to minimize the number of test joints necessary for a wide range of test torque levels. A list of preferred test torque levels is provided in Annex C.

 

This document specifies the limits of sizes for major, pitch and minor diameters of ISO general purpose metric screw threads (M) conforming to ISO 261 and having basic and design profiles in accordance with ISO 68-1. This document is applicable to the metric fastening screw threads with the ten tolerance classes (4H, 5H, 6H, 7H, 6G, 4h, 6h, 6g, 6f and 6e) recommended in ISO 965-1.

 

This document specifies the general characteristics of grooved pins, made of steel and stainless steel, with nominal diameters 1 mm to 25 mm. These grooved pins are designed to fulfil the main following functions, due to the elastic fit behaviour of the grooves:

 

This document specifies the requirements and test procedures for 360° visibility of self-propelled industrial rider-controlled pallet-stacking trucks in accordance with ISO 5053-1 (herein after referred to as trucks), without a load and it is intended to be used in conjunction with EN 16842-1. This document also applies to pedestrian controlled trucks with foldable platform when used in ride-on mode. Pedestrian-controlled and pedestrian-propelled trucks are not covered by this document. Where specific requirements in this part are modified from the general requirements in EN 16842-1, the requirements of this part are truck specific and intended to be used for self-propelled industrial stand-on pallet-stacking trucks. This part of EN 16842 deals with all significant hazards, hazardous situations or hazardous events relevant to the visibility of the operator for applicable machines when used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer.

 

This document provides a self-assessment of an organization’s human-centred design principles, processes, and activities throughout the life cycle of computer-based interactive systems, It also provides an overview of information given in the ISO 9241-200 series of standards. It is intended to be used as an introduction and self-assessment guide to human-centred design (HCD). Its target audience are personnel responsible for and managing design processes, and it is concerned with ways in which both hardware and software components of interactive systems can enhance human–system interaction. It includes a self-assessment that allows organizations to understand and assess their level of awareness and practices with respect to the human-centred design approach and best practices for organizations and project teams within that organization. This self-assessment is provided as a set of survey questions as well as assessment matrices. The survey may be used directly (answering the survey questions to perform an assessment) or by surveying a number of members of a project team or organization. The matrices may be used to report and visualize the results of the survey-based assessment, or as rapid assessments in their own right. This document does not provide detailed coverage of the methods and techniques required for human-centred design, nor does it address health or safety aspects in detail. Although it addresses the planning and management of human-centred design, it does not address all aspects of project management. The self-assessment matrices that can be used for organizations to assess their level of maturity and support claims of conformance are provided as informative Annexes.

 

This document deals with whole body vibration as a significant hazard. It also specifies the methods for determining the vibration emission transmitted to the whole body of drivers standing and/or seated on freely moveable GSE, when driving for purposes of type evaluation, declaration and methods of verifying vibration emission. The test results are not applicable to the determination of whole body vibration exposure of persons.

 

This part of ISO/IEC 80079 specifies the technical requirements for design, construction, conversion, testing, marking and the information required for use to avoid or minimise the possibility of ignition which could from reciprocating internal combustion engine intended for use in explosive atmospheres including: – Group I EPL Mb for use in underground workings susceptible to firedamp or combustible dust, – Group II EPL Gb and EPL Gc for use in explosive atmospheres of flammable gas and vapour, and – Group III EPL Db and EPL Dc for use in explosive atmospheres of combustible dust. – For EPL Gc and Dc engines, only normal operating conditions need to be taken into account. Malfunctions need not be considered (see B.2.1). This document includes those tests of the engine and its ancillary devices that are required to verify compliance with this document. This document applies to both reciprocating internal combustion engines with compression ignition for EPL Mb, Gb, Gc, Db, Dc and gaseous fuelled spark ignition engines for EPL Gc. See Annex G. This document does not define requirements relating to the driven machinery and equipment. This document does not apply to – explosive mixtures of vapours and gases, which tend to self-decompose (for example carbon disulphide (CS2), ethylene oxide (C2H4O), acetylene (C2H2)) or which are chemically unstable; • hydrogen fueled engines, including blends; • engines used in areas for the processing, manufacture or storage of explosives; • gasoline and other spark ignited engines where the fuel is injected into the combustion chamber as a liquid; or • electrical ignition spark systems. Note 1 Spark ignition systems used with equipment covered by ISO/IEC 80079-41 is covered by IEC 60079-45 This document solely deals with explosion protection requirements. Requirements on gaseous or particulate exhaust emissions are not covered by this standard. General safety requirements are not included in this International Standard. This document does not specify requirements for safety, other than those directly related to the possibility of ignition of flammable mixtures in the surrounding atmosphere which can lead to an explosion. The standard atmospheric conditions (relating to the explosion characteristics of the atmosphere) under which it can be assumed that the engine may be operated are: • temperature –20 °C to +60 °C • pressure 80 kPa (0,8 bar) to 110 kPa (1,1 bar); and • air with normal oxygen content, typically 21% v/v. An engine for use outside of the standard atmospheric conditions is to be designed, constructed tested and marked for those conditions. The ignition hazard assessment, ignition, protection provided, additional testing (if necessary) manufacturer’s technical documentation and instructions to the user are intended toclearly demonstrate the engine’s suitability for the conditions. NOTE 2 changes in temperature and pressure have an influence on the characteristics of the explosive atmosphere including ignitability NOTE 3 IEC TS 60079-43 gives information for equipment used in explosive atmospheres in environmental conditions which include ambient temperatures below –20 °C and additional adverse conditions, including maritime applications. NOTE 4 Reciprocating internal combustion engines are not considered as pressure vessels. This document supplements and modifies the general requirements of IEC 60079-0:2017 and ISO 80079-36. Where a requirement of this document conflicts with a requirement of IEC 60079-0:2017 and ISO 80079-36 as far as applicable for Ex engines, the requirement of this standard takes precedence. NOTE 5 On-going inspection, maintenance and repair aspects play an important role in control of hazardous area installations and the user’s attention is drawn to IEC 60079-17, IEC 60079-19 and IEC 60079-14 and manufacturer’s instructions for further information concerning these aspects.

 

This document provides requirements and recommendations on user assistance, their nature, use and guidance on how to use them. This document is concerned with software components of interactive systems to make human-system interaction usable as far as the most basic interaction aspects are concerned. This document provides a list of generic user assistance guidelines regardless of a specific visualization and implementation technology. It gives guidance and recommendations on selection, usage and dependencies of user assistance and their applications in various contexts. It does not provide detailed coverage of the methods and techniques required for design and implementing of user assistance. The information in this document is intended for use by those responsible for developing user interfaces, but also for planning and managing platform specific aspects of user interface design. It therefore addresses technical issues only to the extent necessary to allow such individuals to understand the relevance and importance of a consistent interaction technique use in the design process. It also provides a framework for human factors and usability professionals involved in human-centred design. Detailed human factors, ergonomics, usability, and accessibility issues are dealt with more fully in a number of standards including other parts of ISO 9241 which sets out the broad principles of ergonomics (see Bibliography). Annex A provides a checklist that can be used to support claims of conformance to this standard.

 

This document specifies the general characteristics of grooved pins, made of steel and stainless steel, with nominal diameters 1 mm to 25 mm. These grooved pins are designed to fulfil the main following functions: — locking of two (or more) parts, — positioning or guiding, — relative rotation of the assembled parts.

 

This document specifies the characteristics of hexalobular socket button head screws with reduced loadability due to head design, in steel and stainless steel, with metric coarse pitch threads M3 to M12, and with product grade A. If, in certain cases, other specifications are requested, property classes and stainless steel grades can be selected from ISO 898-1 or ISO 3506-1, and the dimensional options from ISO 888 or ISO 4753.

 

This document specifies the characteristics of hexalobular socket button head screws with collar with reduced loadability due to head design, in steel and stainless steel, with metric coarse pitch threads M3 to M12, and with product grade A. If, in certain cases, other specifications are requested, property classes and stainless steel grades can be selected from ISO 898-1 or ISO 3506-1, and the dimensional options from ISO 888 or ISO 4753.

 

 

The purpose of this part of ISO 21175 is to specify a Reference Model and Process for Collaborative Modeling and Simulation Environment (CMSE), which establishes a general framework of CMSE to provide guidance for implementation of joint simulation projects. The CMSE which is based on the reference process and the reference model including neutral interfaces and meta-models can enable service-oriented share-use of the infrastructure, integration of the software and collaboration of the business to improve collaboration among all kinds of stakeholders involved in a joint simulation project which needs on-demand simulation at any time and any place upon different manufacturing platforms owned by different enterprises or by different departments within an enterprise. ISO 21175 can not only be applied to manufacturing enterprises but also be applied to other kinds of enterprises. It is intended for use by stakeholders who are concerned with developing and deploying solutions of the joint simulation project based on information and communication technology. It focuses on simulation activities related cross-platform simulation collaboration capability supporting business planning & logistics, manufacturing operations management and production control within or among enterprises, which can cover the levels from 2 to 4 of the functional hierarchy of manufacturing systems in IEC 62264-3. This part of ISO 21175 specifies the following: This part of ISO 21175 does not relate to the simulation irrelevant collaboration environment, and does not specify the specific approach to implement CMSE in the solution formulation of joint simulation projects.

 

This document specifies the limits of sizes for major, pitch and minor diameters of ISO metric trapezoidal screw threads (Tr) conforming to ISO 2902 and having basic and design profiles in accordance with ISO 2901. This document is applicable to the metric trapezoidal screw threads with the seven tolerance classes (7H, 8H, 9H, 7e, 8e, 8c and 9c) recommended in ISO 2903.