Metalliteollisuuden Standardisointiyhdistys

This document specifies the safety requirements and measures for — surface planing machines, also called jointers,— thickness planing machines, also called planers or single surface planers,— combined surface/thickness planing machineswith fixed cutter block position, with an integrated feed in thickness planing mode, with or without demountable power feed device in planing mode, with manual loading and/or unloading of the workpiece and capable of continuous production use, hereinafter referred to also as “machines”. The machines are designed to cut solid wood and material with similar physical characteristics to wood.It deals with all significant hazards, hazardous situations and events as listed in Annex A relevant to the machines when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Transport, assembly, dismantling, disabling and scrapping phases have also been taken into account.It is also applicable to surface planing machines and combined surface/thickness planing machines fitted with an optional mortising device, whose hazards have been dealt with.This document does not apply to:a) machines with more than one cutter block;b) machines with a mortising unit driven by a separate motor;c) machines where the cutter block is adjustable for depth of cut setting in thickness planing mode;d) machines where the conversion from planing to thickness planing mode or vice versa is achieved by mounting or demounting parts/units;e) machines where surface planing and thickness planing can be performed on the same section of the cutter block at the same time;f) machines intended for use in potentially explosive atmosphere;g) machines manufactured prior to the date of its publication as an international standard.

This document specifies the requirements for metallic shop fabricated cylindrical vertical steel tanks, single and double skin for the aboveground storage of water polluting liquids (both flammable and non-flammable) within the following limits:— from Ø 1250 mm up to Ø 4 000 mm inner tank nominal diameter, and— up to maximum overall shell length of 6 times the nominal inner tank diameter (or max 14 m shell lenght Lz), and— tank possible to be divided from 1 to 5 compartments,— for liquids with maximum density of up to 1,9 kg/l, and— with an operating pressure (P0) of maximum 50kPa (0,5 bar (g)) and minimum – 5 kPa (- 50 mbar (g)), and— where double skin tanks with vacuum leak detection system are used the kinematic viscosity of the stored media shall not exceed 5 × 10-3 m2/s.This document is applicable for normal ambient temperature conditions (-40 °C to + 50 °C). Where temperatures are outside this range, additional requirements need to be taken into account.This document is not applicable to tanks used for storage and/or supply of fuel/gas for building heating/cooling systems, and of hot or cold water not intended for human consumption, nor to loads and special measures necessary in areas subject to risk of earthquakes.This document is not applicable for the storage of liquids having dangerous goods classes listed in Table 1 because of the special dangers involved.Table 1 - List of dangerous goods which are not covered by this documentUN-classification Type of dangerous goodsClass 1 ExplosivesClass 4.2 Substances liable to spontaneous combustionClass 4.3 Substances which in contact with water emit flammable gasesClass 5.2 Organic peroxidesClass 6.2 Infectious substancesClass 7 Radioactive substances, hydrocyanic or hydrocyanic solvent liquids, metal carbons, hydrofluoric acid, bromide liquidsNOTE The classifications referred to are those adopted by the United Nations Committee of Experts on the Transport of Dangerous Goods (not to be interpreted as tank classes described in 6.2).

This standard specifies mechanical aspects of lightweight multi track carrier cycles.

This standard specifies mechanical aspects of lightweight single track carrier cycles.

This document specifies requirements and test methods for room temperature sensors used to control the room temperature.This document covers wall mounted and flush mounted room temperature sensors.The following aspects are not covered by this document:- Pendulum temperature sensors- Ceiling mounted temperature sensor- Extract air temperature sensorsNOTE The measured value available at the output of the sensor is influenced by the place where the sensor device is located and factors such as air velocity, wall temperature, self/waste heating of the device and the air temperature. The perceived temperature, which is important for the well-being of a person, depends among other factors on air temperature, temperature of the surrounding walls and air flow rate as indicated in EN ISO 7730.The temperature sensor element can be combined with other sensors in one device. This document only deals with the room temperature sensing of this devices. Other sensors are not covered except of their influence on the room temperature sensing (e.g. self-heating).This document specifies sensor characteristics contributing to the determination of the control accuracy of individual zone controller according to EN 15500 1.

This document specifies the terminology and performance requirements for all sensor components of stationary equipment within a Road Weather Information System (RWIS).

1.1 This document specifies safety requirements for construction, manufacturing, installation, maintenance, inspection and dismantling of permanently installed electrically powered vertical lifting appliances affixed to a building structure intended for use by persons, including persons with disability:- travelling vertically between predefined levels along a guided path whose inclination to the vertical does not exceed 15°;- supported or sustained by rack and pinion, rope traction drive, noncircular elastomeric-coated suspension means (hereafter called traction belts) traction drive, rope positive drive, chains, toothed belts, screw and nut, guided chain, scissors mechanism or hydraulic jack (direct or indirect);- with enclosed wells;- with a rated speed not greater than 0,15 m/s;- with the carrier completely enclosed.1.2 This document does not cover:- hydraulic lifting appliances where the setting of the pressure relief valve (4.8.3.5.3) exceeds 50 MPa;- operation in severe conditions (e.g. extreme climates, strong magnetic fields);- lightning protection;- operation subject to special rules (e.g. potentially explosive atmospheres);- handling of materials, the nature of which could lead to dangerous situations;- lifting appliances whose primary function is the transportation of goods;- lifting appliances prone to vandalism;- earthquakes, flooding;- firefighting and evacuation;- noise and vibrations;- the design of concrete, hard core, timber or other foundation or building arrangement;- the design of anchorage bolts to the supporting structure;- the transport of type-C wheelchairs as defined in EN 12183:2014 and/or EN 12184:2014;- vertically sliding doors.NOTE Noise and vibration are not considered significant nor relevant hazards.1.3 This document deals with all significant hazards, hazardous situations or hazardous events relevant to lifting appliance, when it is used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer. They have been identified by risk assessment; see Annex I.1.4 This document is not applicable to lifting appliances manufactured before the date of its publication.

1.1 This document specifies the safety rules for new accessible goods only lifts with traction, positive or hydraulic drive, permanently installed and only used by instructed persons (users), serving fixed and permanent landing levels, having a carrier made of a single load carrying area, designed for the transportation of goods only, moving along a fixed path by rigid guide rails and inclined not more than 15° to the vertical, with rated speed not exceeding 1 m/s.This document covers accessible goods only lifts with rated load exceeding 300 kg and not intended to transport persons, on account of controls not operable from inside the carrier.1.2 For the purpose of this document, a goods only lift carrier is regarded as accessible where one of the following conditions is satisfied:a) floor area of the carrier is greater than 1,0 m2;b) depth of the carrier is greater than 1,0 m;c) clear height of the carrier is greater than 1,20 m.In case the carrier is a platform, it is considered accessible when the clear height of the landing doors is greater than 1,20 m.1.3 Two types of accessible goods only lifts are addressed:a) Type A, where the intended use is bound to the maximum rated speed of 0,30 m/s;b) Type B, where the intended use is bound to the maximum rated speed of 1,0 m/s.1.4 In addition to the requirements of this document, supplementary requirements have to be considered in special cases (potentially explosive atmosphere, extreme climate conditions, seismic conditions, transporting dangerous goods, etc.).1.5 This document does not cover:a) accessible goods only lifts:1) with more than one lift machine;2) where loading and unloading is automated, or the carrier floor is fitted with mobile devices (e.g. rollers) for loading and unloading purposes;3) intended to carry bulk loads (such as loose sand, gravel, etc.);4) with drive systems other than those stated in 4.8;b) lifting tables according to EN 1570-1 and EN 1570-2;c) lifting appliances, such as appliances with more than one carrier, skips, goods only lifts for construction sites, for underground applications, mine winding gear, goods only lifts on seagoing vessels and mobile offshore units, construction and maintenance appliances in wind turbines, goods only lifts specially designed and constructed for research purposes for temporary use in laboratories, goods only lifts specially designed and constructed for military or police purposes;d) safety during operation of transport, erection, repairs and dismantling of accessible goods only lifts;e) the use of translucent material for the walls of the well and machinery spaces, for the carrier with the exception of the landing doors vision panels;f) the use of programmable electronic systems in safety related applications for lifts (PESSRAL);g) important modifications (see Annex D) to an accessible goods only lifts installed before this document is brought into application;h) hydraulic lifts where the setting of the pressure relief valve exceeds 50 MPa (see 4.8.3.5.3);i) any form of radiation except EMC;j) fire propagation;k) energy dissipation type buffers.However, this document can usefully be taken as a basis.Noise and vibrations are not dealt with in this document as they are not considered a significant nor relevant hazard for the actual type of the accessible goods only lifts (see also 0.4.1).1.6 This document is not applicable to accessible goods only lifts which were manufactured before the date of its publication as EN.

This document specifies the verification procedure for temperature recorders and thermometers for measuring the air and the products between -80 °C and +85 °C, which are intended to equip the means used for the transport, storage and distribution of temperature sensitive goods and which comply with standards EN 12830 and EN 13485 (measurement classes and ranges).It specifies the test methods which allow the verification of the equipment's conformity against class requirements identified in EN 12830 and EN 13485.NOTE Examples for the transport, storage and distribution of temperature sensitive goods between -80 °C and +85 °C include chilled, frozen, deep frozen and quick-frozen food; ice cream; fresh and hot food; pharmaceuticals; blood and organs; chemicals; biologicals; electronic and mechanical devices; flowers, plants and bulbs; raw materials and liquids; animals; art and furnishings.

ISO 19932-1:2013 specifies the safety and environmental requirements and their means of verification for the design and construction of knapsack sprayers carried on the back or shoulder of the operator for use with plant protection products. In addition, it specifies the type of information on safe working practices (including residual risks) to be provided by the manufacturer.It is applicable to lever-operated knapsack sprayers, knapsack compression sprayers and knapsack sprayers driven by an engine or electric motor using hydraulic pressure atomisation of the spray liquid, with a nominal volume of more than 3 l, for their intended use primarily in agriculture and horticulture.It does not apply to knapsack mistblowers according to ISO 28139.ISO 19932-1:2013 deals with all significant hazards, hazardous situations and hazardous events relevant to knapsack sprayers when they are used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer, excepting the hazards arising from: static electricity; explosion or fire from chemicals for spraying; and insufficient structural integrity.ISO 19932-1:2013 is not applicable to knapsack sprayers which are manufactured before the date of its publication.

ISO 19932-2:2013 specifies test methods for the verification of requirements of ISO 19932-1:2013 for knapsack sprayers carried on the back or shoulder of the operator for use with plant protection products.It is applicable to lever-operated knapsack sprayers, knapsack compression sprayers and knapsack sprayers driven by an engine or electric motor using hydraulic pressure atomisation of the spray liquid, with a nominal volume of more than 3 l for their intended use primarily in agriculture and horticulture.It does not apply to knapsack mistblowers according to ISO 28139.

This document specifies the requirements and test methods for inspection of the use of knapsack sprayers carried on the back or shoulder of the operator for use with plant protection products (PPPs). The requirements relate mainly to the condition of the sprayer with respect to its potential risk to the operator and the environment and its performance to achieve good application. It is applicable to lever-operated knapsack sprayers, knapsack compression sprayers and knapsack sprayers driven by an engine or electric motor using hydraulic pressure atomisation of the spray liquid, intended for use primarily in agriculture, forestry and horticulture, with a nominal volume of more than 6,0 l. This document does not apply to — knapsack combustion engine-driven air-blast sprayers, which are covered in ISO 28139 — controlled droplet application equipment utilizing rotary atomisers, or — portable application equipment for spatial application (such as foggers).

This document specifies the safety requirements and measures for combined woodworking machines (defined in 3.1), capable of continuous production use, with manual loading and unloading of the workpiece and hereinafter referred to also as “machines”. The machines are designed to cut solid wood and material with similar physical characteristics to wood.It deals with all significant hazards, hazardous situations and events, listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Transport, assembly, dismantling, disabling and scrapping phases have also been taken into account.This document does apply to machines also equipped with the devices/additional working units listed in the Scopes of ISO 19085 5:202x, ISO 19085 6:202x, ISO 19085-7:202x and ISO 19085-9:202x.This document does not apply to:a) machines incorporating only a planing unit and a mortising device;NOTE Such machines are dealt with in ISO 19085-7:202x.b) combined machines incorporating a band saw unit;c) machines with a mortising unit with a separate drive other than the planing unit drive;d) machines intended for use in potentially explosive atmosphere;e) machines manufactured before the date of its publication as an International Standard.

This document specifies the safety requirements and measures for circular saw benches with or without sliding table and/or demountable power feed unit and capable of continuous production use, also known as “table saws” (in the USA), hereinafter referred to also as “machines”.The machines are designed to cut wood and material with similar physical characteristics to wood.It deals with all significant hazards, hazardous situations and events as listed in Annex A relevant to the machines when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Transport, assembly, dismantling, disabling and scrapping phases have also been taken into account.It is also applicable to machines fitted with one or more of the following devices, or working unit, whose hazards have been dealt with:— device for the main saw blade and scoring saw blade to be raised and lowered through the table;— device to tilt the main saw blade and scoring saw blade for angled cutting;— device for scoring;— device for grooving with milling tool with a width not exceeding 20 mm in one pass;— demountable power feed unit;— additional manually operated sliding table;— powered workpiece clamping device.This document does not apply to:a) machines intended for outdoor use on building sites;NOTE 1 Building site saws (contractor saws) are covered by the requirements of ISO 19085 10:2018.b) handheld woodworking machines including any adaptation permitting their use in a different mode, i.e., bench mounting;c) machines intended for use in a potentially explosive atmosphere;d) machines manufactured prior to the date of its publication as an International Standard.

This document specifies the geometry and method of use (installation and operating conditions) of nozzles and Venturi nozzles when they are inserted in a conduit running full to determine the flowrate of the fluid flowing in the conduit.This document also provides background information for calculating the flowrate and is applicable in conjunction with the requirements given in ISO 5167-1.This document is applicable to nozzles and Venturi nozzles in which the flow remains subsonic throughout the measuring section and where the fluid can be considered as single-phase. In addition, each of the devices can only be used within specified limits of pipe size and Reynolds number. It is not applicable to the measurement of pulsating flow. It does not cover the use of nozzles and Venturi nozzles in pipe sizes less than 50 mm or more than 630 mm, or where the pipe Reynolds numbers are below 10 000.This document deals witha) three types of standard nozzles:ISA 1932[1] nozzle;the long radius nozzle[2];the throat-tapped nozzleb) the Venturi nozzle.The three types of standard nozzle are fundamentally different and are described separately in this document. The Venturi nozzle has the same upstream face as the ISA 1932 nozzle, but has a divergent section and, therefore, a different location for the downstream pressure tappings, and is described separately. This design has a lower pressure loss than a similar nozzle. For all of these nozzles and for the Venturi nozzle direct calibration experiments have been made, sufficient in number, spread and quality to enable coherent systems of application to be based on their results and coefficients to be given with certain predictable limits of uncertainty.[1] ISA is the abbreviation for the International Federation of the National Standardizing Associations, which was superseded by ISO in 1946.[2] The long radius nozzle differs from the ISA 1932 nozzle in shape and in the position of the pressure tappings.

This document specifies a method where a vibrating component (a source of structure-borne sound or vibration) is attached to a passive structure (or receiver) and is the cause of vibration in, or structure-borne sound radiation from, the assembly. Examples are pumps installed in ships, servo motors in vehicles or machines and plant in buildings. Almost any vibrating component can be considered as a source in this context.Due to the need to measure vibration at all contact degrees of freedom (DOFs) (connections between the source and receiver), this document can only be applied to assemblies for which such measurement is possible.This document is applicable only to assemblies whose frequency response functions (FRFs) are linear and time invariant.The source can be installed into a real assembly or attached to a specially designed test stand (as described in 5.2).The standard method has been validated for stationary signals such that the results can be presented in the frequency domain. However, the method is not restricted to stationary signals: with appropriate data processing, it is also applicable to time-varying signals such as transients and shocks (provided linearity and time invariance of the FRFs are preserved).This document provides a method for measurement and presentation of blocked forces, together with guidelines for minimizing uncertainty. It provides a method evaluating the quality of the results through an on-board validation procedure but does not comment on the acceptability or otherwise of the results.

This document is the first of a suite of seven (7) documents which outlines the general principles to manage the various type of radioactive waste, and provides guidance for the practical implementation of those principles. The purpose of this document is to address the following:

Hot helium leak testing can realize more reliable leak tightness assessment than the conventional cold helium leak testing for components that run at elevated temperatures. It gives the total leakage rate of a component at its operating temperature and pressure, and could greatly reduce its operational leak risk. This document specifies the methods and techniques for leak tightness assessment of a metallic component at high temperature by measuring its total leakage rates in a vacuum chamber with a tracer gas leak detector and high-pressure helium gas or the gas mixture flowing out of the component as tracer gas during its thermal and pressure cycles as these at its operating conditions. The minimum detectable leakage rate can be as low as 10-10 Pa · m3/s, depending on the dimension, external configuration complexity and materials of the component, and is strongly related to the test system and the test conditions. This document is applicable for the hot helium leak test of in-vessel components as per its normal operating conditions in nuclear fusion reactors, which operate at elevated temperatures in an ultra-high vacuum environment down to 10-6 Pa and with inner flowing-coolant at operating pressure. It is also applicable to the overall leak tightness test of welds in other metallic components and equipment that could be evacuated and pressurized, such as pressurized tanks, pipes and valves in power plants, aerospace and other nuclear reactors.