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HJ 2518-2012

Search Result of Chinese Standard: 'HJ 2518-2012'
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HJ 2518-2012English269 Add to Cart Days<=3 Technical requirement for environmental labeling products. Lighting source Valid HJ 2518-2012
HJ 2518-2012Chinese14 Add to Cart <=1-day [PDF from Chinese Authority, or Standard Committee, or Publishing House]

   
Detail Information of HJ 2518-2012; HJ2518-2012
Description (Translated English): Technical requirement for environmental labeling products. Lighting source
Sector / Industry: Environmental Protection Industry Standard
Classification of Chinese Standard: K71
Classification of International Standard: 29.140
Word Count Estimation: 10,155
Older Standard (superseded by this standard): HJ/T 230-2006
Quoted Standard: GB 18871; GB 19043; GB 19044; GB 19415; GB/T 10682; GB/T 13259; GB/T 16288; GB/T 17262; GB/T 17263; GB/T 18455; GB/T 18661; GB/T 20861; GB/T 23113; GB/T 24458; GB/T 24824; GB/T 24908; GB/T 26572; QB/T 2940
Drafting Organization: China-Japan Friendship Center for Environmental Protection
Regulation (derived from): Department of Environmental Protection Notice 2012 No. 38;
Summary: This standard specifies the environmental labeling products lighting terminology and definitions, basic requirements, technical contents and test method. This standard applies to single- capped fluorescent lamps, double- capped fluorescent lamps for gener

HJ 2518-2012
Technical requirement for environmental labeling products.Lighting source
National Environmental Protection Standard of the People's Republic
Replace HJ/T 230-2006
Technical requirements for environmental labeling products
Illumination source
Technical requirement for environmental labeling products
Lighting source
Published on July 7,.2012
2012-10- 1 Implementation
Ministry of Environmental Protection released
Content
Foreword..4
1 Scope.5
2 Normative references. 5
3 Terms and Definitions 5
4 Basic requirements.6
5 Technical content.6
6 Test methods.9
Foreword
In order to implement the Environmental Protection Law of the People's Republic of China, improve the energy efficiency of lighting sources and reduce the production, use and return of products.
This standard is formulated for the impact on the environment and human health during the recycling process.
This standard specifies the environmental design, energy efficiency, hazardous substances, production process, recycling and recycling, and packaging of lighting source products.
Materials and public information are required.
This standard has revised the "Energy-saving Lamps for Environmental Labeling Products Technical Requirements" (HJ/T 230-2006). The main changes are as follows.
-- modified the standard name;
-- Raise the requirements for energy consumption indicators;
-- Increased energy requirements for environmentally-labeled low-carbon products;
- tightened the limit requirement for mercury;
-- Increased requirements for limits on harmful substances such as lead and arsenic;
-- Increased environmental requirements for the production process;
-- Increased requirements for recycling management.
This standard applies to China Environmental Labeling Products and China Environmental Labeling Low Carbon Products Certification.
This standard was formulated by the Science and Technology Standards Department of the Ministry of Environmental Protection.
This standard is mainly drafted by. China-Japan Friendship Environmental Protection Center, China Lighting Association, National Electric Light Source Quality Supervision and Inspection
Center (Beijing), National Electric Light Source Quality Supervision and Inspection Center (Shanghai), Shanghai Yaming Bulb Factory Co., Ltd., Zhejiang Sunshine Lighting
Electrical Group Co., Ltd., Philips (China) Investment Co., Ltd., Osram (China) Lighting Co., Ltd.
This standard was approved by the Ministry of Environmental Protection on July 3,.2012.
This standard has been implemented since October 1,.2012 and has replaced HJ/T 230-2006 since its implementation.
This standard is explained by the Ministry of Environmental Protection.
The previous versions of the standards replaced by this standard are.
--HJ BZ 15.1-1997, HJ BZ 15.2-1997, HJ/T 230-2006.
Environmental labeling product technical requirements lighting source
1 Scope of application
This standard specifies the terms and definitions, basic requirements, technical content and testing methods of environmental source products for lighting sources.
This standard applies to single-ended fluorescent lamps, double-ended fluorescent lamps for general illumination, self-ballasted fluorescent lamps for general illumination, high-pressure sodium lamps, gold
It is a self-ballasted LED lamp for halide lamps and general lighting.
2 Normative references
The contents of this standard refer to the terms in the following documents. For undated references, the valid version applies to this standard.
GB 18871 Basic standards for ionizing radiation protection and radiation source safety
GB 19043 Energy efficiency limit value and energy efficiency rating of double-ended fluorescent lamps for general lighting
GB 19044 Energy-saving limit value and energy efficiency rating of self-ballasted fluorescent lamps for general lighting
GB 19415 single-ended fluorescent lamp energy efficiency limit value and energy saving evaluation value
GB/T 10682 double-ended fluorescent lamp performance requirements
GB/T 13259 high pressure sodium lamp
GB/T 16288 logo for plastic products
GB/T 17262 single-ended fluorescent lamp performance requirements
GB/T 17263 Performance requirements for self-ballasted fluorescent lamps for general lighting
GB/T 18455 packaging recycling mark
GB/T 18661 single-ended metal halide lamp performance requirements
GB/T 20861 Waste product recycling terminology
GB/T 23113 Fluorescent lamps - Determination of mercury content
GB/T 24458 ceramic metal halide lamp performance requirements
GB/T 24824 LED module test method for general lighting
GB/T 24908 performance requirements for self-ballasted LED lamps for general lighting
GB/T 26572 Limit requirements for restricted substances in electrical and electronic products
QB/T 2940 Limitation Requirements for Toxic and Hazardous Substances in Lighting Appliances
Measures for the Administration of Pollution Control of Electronic Information Products (No. 39 of the Ministry of Information Industry)
National Directory of Hazardous Wastes (Ministry of Environmental Protection [2008] No. 1)
3 Terms and definitions
The following terms and definitions apply to this standard.
3.1 lighting source
A device that converts electrical energy into optical radiant energy and is used for illumination.
3.2 Recycling take-back
Activities for the collection and storage of waste products.
3.3 Recycling recycling
Disposal of waste products to enable them to be reused as raw materials, but does not include the recovery and use of energy.
(GB/T 20861)
4 basic requirements
4.1 Product quality and safety performance should meet the requirements of the corresponding product standards.
4.2 Pollutant emissions from product manufacturing enterprises shall comply with national or local standards for pollutant discharge.
4.3 Product manufacturers should strengthen clean production in the production process.
5 Technical content
5.1 Product Environmental Protection Design Requirements
5.1.1 Plastic parts with a mass exceeding 25g or an area exceeding.200mm2 (except for the translucent cover) shall be marked with the material according to the requirements of GB/T 16288.
5.1.2 The survival rate of high-pressure sodium lamp and metal halide lamp source should meet the requirements of Table 1. The survival rate of other products is in accordance with the corresponding national standards.
Claim.
Table 1 Source survival requirements for high pressure sodium lamps and metal halide lamps
Product category color rendering index nominal power (W) 12000h light source survival rate
High pressure sodium lamp - - ≥95%
Metal halide lamp
≥80
≤70 ≥60%
>70; ≤400 ≥70%
<80 >150; ≤400 ≥70%
5.1.3 Requirements for hazardous substances in parts and components
5.1.3.1 Lamps and wick glass shall not be artificially added with lead (Pb), arsenic (As) or antimony (Sb), each of which contains
Do not exceed 0.1% of the total mass of the glass part.
5.1.3.2 The limit of product electronic components (excluding glass or ceramic capacitors), plastic parts and solder hazardous substances shall comply with GB/T 26572
Claim.
5.1.3.3 Plastic parts with a mass of more than 5g shall not be used with materials whose base is a halogen polymer, of which short-chained chlorinated paraffins (SCCPs),
The content of hexabromocyclododecane (HBCD) shall not exceed 0.1% of the mass of the part, and the amount of organic fluorine additive added in the fluoroplastic shall not
More than 0.5% of the mass of the part.
5.1.3.4 The content of gallium arsenide (GaAs) in the LED lamp shall not exceed 0.1% of the mass of the LED component.
5.1.3.5 The 钍-232 (232Th) and 氪-85 (85Kr) activities of metal halide lamps shall comply with the requirements of GB 18871.
5.2 Product production stage requirements
5.2.1 Fluorescent lamps and high pressure sodium lamps shall not be subjected to the liquid mercury process.
5.2.1 Fluorescent lamps, high-pressure sodium lamps and metal halide lamps shall be provided with mercury collection and adsorption devices during the production process, and the reduction of mercury content shall be established.
Planning and management requirements to reduce mercury emissions.
5.2.3 Fluorescent lamps should be treated with an aqueous coating process.
5.2.4 The welding process with a melting point below 450 °C shall be carried out using a lead-free soldering process.
5.2.5 Do not use chromium compounds, hydrochlorofluorocarbons (HCFCs), 1,1,1-trichloroethane (C2H3Cl3), trichloroethylene (C2HCl3),
Dichloroethane (CH3CHCl2), dichloromethane (CH2Cl2), chloroform (CHCl3), carbon tetrachloride (CCl4), bromopropane
(C3H7Br) substance as a cleaning solvent.
5.2.6 The waste recycling and recycling management requirements in the production process should be established to ensure the classification and disposal of waste during the production process.
Hazardous waste included in the National Hazardous Waste List should be disposed of in a harmless manner by a qualified disposal agency.
5.3 Requirement of hazardous substances in products
Single-ended fluorescent lamps, self-ballasted fluorescent lamps for general illumination, double-ended fluorescent lamps for general illumination, high-pressure sodium lamps, metal halide lamps
The mercury content should meet the requirements of Table 2.
Table 2 Mercury content limit requirements in products
Product type mercury content limit (mg/support)
Single-ended fluorescent lamps and self-ballasted fluorescent lamps for general illumination
Power ≤30W ≤1.5
Power>30; ≤60W ≤3.0
Double-ended fluorescent lamp for general lighting
Tube diameter ≤17mm ≤2.5
Tube diameter>17mm ≤3.0
Long-acting three-primary double-ended fluorescent lamp (lifetime greater than 25000h) ≤5.0
HPS
Power ≤70W ≤12.5
Power >70W; ≤150W ≤15
Power>150W; ≤400W ≤20
>400W ≤40
Metal halide lamp
Power ≤70W ≤10
Power >70W; ≤150W ≤20
Power>150W; ≤250W ≤30
Power>250W; ≤400W ≤60
5.4 Product energy requirements
5.4.1 Single-end fluorescent lamp environmental marking products The initial luminous efficacy and lumen maintenance rate should meet the requirements of GB 19415 secondary energy efficiency rating index.
The environmental performance of low-carbon products should meet the requirements of GB 19415 first-class energy efficiency rating indicators.
5.4.2 Self-ballasted fluorescent lamp environmental labeling products The initial luminous efficacy and lumen maintenance rate should meet the requirements of GB 19044 secondary energy efficiency rating index.
Environmental Labeling The energy efficiency of low carbon products should meet the requirements of GB 19044 Class 1 energy efficiency rating.
5.4.3 Double-end fluorescent lamp environmental marking products The initial luminous efficacy and lumen maintenance rate should meet the requirements of GB 19043 second-level energy efficiency rating index.
The environmental performance of low-carbon products of environmental indicators should meet the requirements of GB 19043 first-class energy efficiency rating indicators.
5.4.4 High-pressure sodium lamp environmental label and environmental label The initial light efficiency and lumen maintenance rate of low-carbon products should meet the requirements of Table 3.
Table 3 High pressure sodium lamp product requirements
Nominal power/W environmental sign environmental mark low carbon
average
Initial light efficiency (1m/W)
2000h
Luminous maintenance rate
average
Initial light efficiency (1m/W)
2000h
Luminous maintenance rate
≤50 ≥73 ≥85% ≥80 ≥90%
>50;≤70 ≥81 ≥85% ≥90 ≥90%
>70;≤100 ≥88 ≥85% ≥100 ≥90%
>100;≤150 ≥98 ≥90% ≥110 ≥95%
>150; ≤250 ≥110 ≥90% ≥125 ≥95%
>250;≤400 ≥120 ≥90% ≥135 ≥95%
>400;≤1000 ≥130 ≥85% ≥143 ≥90%
5.4.5 Metal halide lamp environmental label and environmental label The initial light efficiency and lumen maintenance rate of low carbon products should meet the requirements of Table 4.
Table 4 Metal halide lamp product requirements
Nominal power/W environmental sign environmental mark low carbon
average
Initial light efficiency (1m/W)
2000h lumen maintenance average
Initial light efficiency (1m/W)
2000h lumen maintenance rate
Color rendering index ≥ 80
≤70W ≥80 ≥80% ≥88 ≥85%
>70;≤150 ≥85 ≥80% ≥94 ≥85%
>150; ≤250 ≥85 ≥85% ≥94 ≥90%
>250;≤400 ≥90 ≥85% ≥100 ≥90%
Color rendering index <80
>150; ≤250 ≥88 ≥85% ≥95 ≥90%
>250;≤400 ≥93 ≥85% ≥102 ≥90%
5.4.6 Non-directional self-ballasted LED lights Environmental signs and environmental signs Low-carbon products 3000h lumen maintenance rate should be no less than 96%, color rendering index
Should meet the requirements of GB/T 24908 standard, the initial light effect meets the requirements of GB/T 24908 level one standard.
5.4.7 Reflective self-ballasted LED lights environmental signs and environmental signs Low carbon product color rendering index, lumen maintenance rate and initial light effect in accordance with the table
5 requirements.
Table 5 Reflective self-ballasted LED lamp product requirements
Rated color temperature model color rendering index 3000h lumen maintenance rate minimum initial light effect/(1m/W)
≤4000K PAR16 PAR20
PAR30 PAR38
≥85 96% 55
>4000K;≤6500K PAR16 PAR20
PAR30 PAR38
≥80 65
5.4 Product Packaging Requirements
5.4.1 It shall be marked in accordance with the requirements of GB/T 18455.
5.4.2 Hydrochlorofluorocarbons (HCFCs) should not be used as blowing agents.
5.5 Product recycling phase requirements
A recycling and recycling management system for waste products should be established to provide information on product recycling and recycling.
5.6 Product Description Requirements
Product descriptions must be sold with the product and should include the following.
1) Relevant information on the correct recycling method after the product is discarded, such as classification with ordinary waste, can not be discarded at will, to prevent breaking
Broken warning signs and emergency treatment methods after product breakage.
2) Mark the status of hazardous substances in accordance with the “Administrative Measures for Pollution Control of Electronic Information Products”.
3) Information on the efficacy, color rendering index and lumen maintenance of the product.
6 Test methods
6.1 The content of mercury in Technical Content 5.3 is tested in accordance with the methods specified in QB/T 2940 and GB/T 23113.
6.2 Technical content The initial luminous efficacy and lumen maintenance rate of single-ended fluorescent lamps in 5.4.1 are tested in accordance with the method specified in GB/T 17262.
6.3 Technical content The initial luminous efficacy and lumen maintenance rate of self-ballasted fluorescent lamps in 5.4.2 are tested in accordance with the method specified in GB/T 17263.
6.4 Technical content The initial luminous efficacy and lumen maintenance rate of double-ended fluorescent lamps in 5.4.3 are tested in accordance with the method specified in GB/T 10682.
6.5 Technical content 5.4.4 The initial luminous efficacy and lumen maintenance rate of the high pressure sodium lamp are tested in accordance with the method specified in GB/T 13259.
6.6 Technical content 5.4.5 The initial luminous efficacy and lumen maintenance rate of metal halide lamps shall be tested in accordance with GB/T 24458 and GB/T 18661.
The method is determined.
6.7 Technical content 5.4.6 Detection of color rendering index, initial luminous efficacy and lumen maintenance of non-directional self-ballasted LED lamps in accordance with GB/T
The method specified in 24824 is carried out.
6.8 Technical content 5.4.7 Detection of color rendering index, initial luminous efficacy and lumen maintenance of reflective self-ballasted LED lamps in accordance with GB/T 24824
The prescribed method is carried out.
6.9 Other requirements in the technical content are verified by means of document review combined with on-site inspection.
   
 
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