introdução
ISO (Organização Internacional para Padronização) é uma aliança global de organismos nacionais de normalização (Órgãos membros da ISO). O desenvolvimento de padrões internacionais é geralmente realizado através de comitês técnicos ISO. Cada instituição membro interessada em um assunto sobre o qual tenha sido estabelecido um comitê técnico tem o direito de ser representada nesse comitê. Organizações internacionais governamentais e não governamentais em ligação com a ISO também estão envolvidas neste trabalho. A ISO trabalha em estreita colaboração com a Comissão Eletrotécnica Internacional (CEI) em todos os assuntos de padronização elétrica.

Os procedimentos utilizados para desenvolver este documento e aqueles utilizados para manutenção adicional estão descritos na Parte 1 da Diretiva ISO/IEC. Em particular, atenção deve ser dada aos diferentes critérios de aprovação exigidos para diferentes tipos de documentos ISO. Este documento foi elaborado de acordo com as regras de edição da Diretiva ISO/IEC Parte 2 (veja iso.org/directives).

Observe que certos elementos deste documento podem estar sujeitos a direitos de patente. A ISO não é responsável por identificar nenhuma ou todas essas patentes. Detalhes de quaisquer direitos de patente identificados durante a preparação do documento serão encontrados na introdução e/ou na lista de reivindicações de patente recebida pela ISO (veja iso.org/patents).

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

Quaisquer nomes comerciais usados ​​neste documento são fornecidos para conveniência do usuário e não constituem um endosso.

Para obter uma descrição do significado de termos e expressões específicos da ISO relacionados à avaliação da conformidade, e para obter informações sobre a conformidade da ISO com os princípios da OMC em Barreiras Técnicas ao Comércio (TBT), consulte o seguinte URL: Prefácio – Informação suplementar

O comitê responsável por este documento é o ISO/TC 172, Óptica e Fotônica, Subcomitê SC 1, Basic Standards.

A terceira edição cancela e substitui a segunda edição (ISO 9022-1:2012), which has been revised to reflect changes made to the ISO 9022 Series.

ISO 9022 consists of the following parts under the general heading Optics and Photonics – Environmental Test Methods:

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

– Papel 1: Defining and testing the scope

– Papel 2: Frio, heat and wet

– Papel 3: Estresse mecânico

– Papel 4: Salt spray

– Papel 6: Pó

– Papel 7: Resistance to dripping or rain

– Papel 8: High internal pressure, low internal pressure, imersão

– Papel 9: Radiação solar e intemperismo

– Papel 11: Mold growth

– Papel 12: Pollution

– Papel 14: Dew, frost, ice

– Papel 17: Combined pollution, solar radiation

– Papel 20: Humid atmospheres containing sulfur dioxide or hydrogen sulfide

– Papel 22: Combination of cold, dry heat or temperature changes with bumps or random vibrations

– Papel 23: Low pressure combined with cold, ambient temperature and dry or humid heat

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

introduzir
Optical instruments are subject to many different environmental parameters during use, which need to be resisted without significantly degrading performance and remaining within prescribed specifications.

The type and severity of these parameters depend on the conditions under which the instrument is used (por exemplo, in a laboratory or workshop) and its geographical location. In tropical and subtropical climates, the effect of the environment on the performance of optical instruments is completely different from that found when used in the Arctic region. Each parameter will have different overlapping effects on the performance of the instrument.

Manufacturers try to ensure that, naturally, users expect the instrument to be resistant to the rigors that its environment can bring throughout its life cycle. This expectation can be assessed by exposing the instrument to a range of simulated environmental parameters under controlled laboratory conditions. The severity of these diseases is often increased in order to achieve meaningful results in a relatively short period of time.

To evaluate and compare the response of optical instruments to appropriate environmental conditions, ISO 9022 contains detailed information on many laboratory tests that reliably simulate a wide range of different environments. These tests are primarily based on IEC standards, modified if necessary to take into account the specific functions of the optical instrument.

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

Due to the continuous progress in various fields, optical instruments are no longer just precision designed optical products, but also include other components from other fields, depending on their range of application. Portanto, the main functions of the instrument will be evaluated to determine which international standard should be used for testing. If optical functions are important, then ISO 9022 é aplicável, but if other functions take precedence, then appropriate international standards in the relevant fields should be applied. There may be situations where ISO 9022 and other appropriate international standards need to be applied simultaneously.

1 Faixa
Esta parte da ISO 9022 defines terms related to environmental testing of optical and photonic instruments, including other components from other fields (such as mechanical, chemical and electronic devices), and specifies the essential characteristics of testing.

2 Termos e definições
Para efeitos deste documento, os seguintes termos e definições se aplicam.

2.1 Environmental test

Laboratory simulations, often severe, of climatic, mecânico, biological, electrical (including electrostatic) and chemical environmental effects acting on specimens during assembly, armazenar, transport and handling in order to identify any changes in specimen behaviour within a short period of time

2.2 Optical Instruments

Instruments whose functions are primarily based on optical phenomena, consisting of multiple components and/or assemblies, lighting systems, instruments with light conduction, and instruments containing components and/or assemblies from other fields in addition to optical units

Exemplo: componentes eletrônicos.

2.3 Optical Components

A functional unit consists of a number of components, at least one of which has an optical function

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

2.4 Components

&isso; Optical Instruments > The smallest unit, usually consisting of one piece and one material

2.5 Representative Samples

Samples that differ from components only in geometry

Exemplo: optical parts or sheet metal.

2.6 Amostra

An instrument, component, conjunto, or representative sample being tested

2.7 Teste

Procedure for determining and evaluating the effect of application parameters on sample characteristics

2.8 Regulation

The sum of the external influences acting on the specimen during the test, such as the method of adjustment and the severity of the application, and the sum of the internal influences arising from the operating state of the specimen, such as movement and/or temperature changes

2.8.1 Conditioning methods

Individual or combined environmental impacts of specimens submitted during testing

Exemplo: Shock or damp heat.

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

2.8.2 Severity

Contains all the individual numbers of parameters required for the test

Exemplo: temperatura, umidade, adjustment time.

Observação 1: The adjustment time (exposure time) is the minimum time when tolerances are not indicated in the relevant part of ISO 9022.

2.8.3 Running Status

Defines the state of the sample’s operating state during conditioning

Observação 1: Distinguish three operating states: operating state 0, operating state 1, and operating state 2.

2.8.3.1 Operation Status 0

The condition of the specimen in the normal transport and/or storage container and/or transport package provided by the manufacturer respectively

2.8.3.2 Operation Status 1

The condition in which the specimen is unprotected and ready for operation but not connected to a power source

2.8.3.3 Operation Status 2

The state of the specimen during the test run for a period of time, which will be determined in the relevant specification

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

Observação 1: The mode of the operating state is given in the relevant specification. During operation, check whether the sample is working properly.

2.9 Exams and tests

Determine the characteristics and functions of the sample for subsequent evaluation

Observação 1: There are three types of inspection and testing: inspeção visual, functional testing and measurement.

2.9.1 Visual inspection

Inspection using the human eye as a detector

2.9.2 Function Test

Functional determination

ISO 9022-1-2016 “Óptica e instrumentos ópticos – Métodos de teste ambiental – Papel 1: Definição, escopo do teste”

2.9.3 Measurement

To objectively determine the value of a physical quantity by comparing it with a specified quantity

2.10 Evaluation

Compare results measured during initial, intermediate and final tests or to specified tolerances

2.11 Related Specifications

Compile all data related to the sample and data required for testing

2.12 Environmental atmospheric conditions

Conditions are defined by a temperature range of 15 °C a 35 °C, with relative air humidity between 30% e 85%

Apenas a seção de informações padrão é pública. Para ver o conteúdo completo, você precisa adquirir o padrão pelos canais oficiais.