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HJ 2506-2011

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HJ 2506-2011English209 ASK Days<=3 Technical requirement for environmental labeling products. Color television broadcasting receivers Valid HJ 2506-2011
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Detail Information of HJ 2506-2011; HJ2506-2011
Description (Translated English): Technical requirement for environmental labeling products. Color television broadcasting receivers
Sector / Industry: Environmental Protection Industry Standard
Classification of Chinese Standard: Z04
Classification of International Standard: 13.020.01
Word Count Estimation: 8,819
Date of Issue: 2011-03-02
Date of Implementation: 2011-04-01
Older Standard (superseded by this standard): HJ/T 306-2006
Quoted Standard: GB 5296.2; GB 8898-2001; GB 12021.7-2005; GB 24850; GB/T 18455; GB/T 2035-2008; GB/T 20861-2007; GB/T 23384; GB/T 24021-2001; SJ/T 11363; SJ/T 11364
Drafting Organization: China-Japan Friendship Center for Environmental Protection
Regulation (derived from): Department of Environmental Protection Notice No. 20 of 2011
Summary: This standard specifies the color television broadcast receivers environmental labeling products of terms and definitions, basic requirements, technical contents and test method. This standard applies to all types of screen size and display color television broadcast receivers, including cathode ray tubes, liquid crystal, plasma display components such as color television broadcast receivers. The main function of the TV does not have a TV tuner, display or monitoring device may refer to.

HJ 2506-2011
Technical requirement for environmental labeling products.Color television broadcasting receivers
National Environmental Protection Standard of the People's Republic
Replace HJ 306-2006
Technical requirements for environmental labeling products
Color television broadcast receiver
Technical requirement for environmental labeling products
-Color television broadcasting receivers
Published on.2011-03-02
2011-04-01 Implementation
Ministry of Environmental Protection released
Foreword
In order to implement the Environmental Protection Law of the People's Republic of China, reduce the carbon dioxide emissions of color TV broadcast receivers and reduce the number of products in production.
This standard is formulated for the impact on the environment and human health during production, use, recycling and reuse.
This standard applies to energy consumption, radiation, hazardous substances, environmental design, production process, recycling and re-processing of color TV broadcast receiver products.
Requirements for use, packaging materials and public information.
This standard has revised the "Technical Requirements for Environmental Labeling Products Color TV Broadcast Receiver" (HJ/T 306-2006), mainly
The changes are as follows.
-- Raise the requirements for energy consumption indicators;
- increased the requirements for radiation;
-- Increased requirements for hazardous substances;
-- increased requirements for recycled material content;
-- Increased requirements for recycling and reuse;
-- Increased carbon dioxide emissions calculation method.
Appendix A and Appendix B of this standard are informative annexes.
This standard applies to China Environmental Labeling Product 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 Household Electrical Appliances Research Institute, National Radio and TV Product Quality Supervision
Inspection Center, Sichuan Changhong Electric Co., Ltd., Qingdao Hisense Electric Co., Ltd., Tianjin Samsung Electronic Display Co., Ltd.
Shenzhen TCL New Technology Co., Ltd., Qingdao Haier Electronics Co., Ltd., Nanjing Sharp Electronics Co., Ltd., Philips China Ltd.,
Blonde Technology Co., Ltd.
This standard was approved by the Ministry of Environmental Protection on March 2,.2011.
This standard has been implemented since April 1,.2011 and has replaced HJ/T 306-2006 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/T 306-2006, HJ BZ 33-1999.
Environmental Labeling Products Technical Requirements Color TV Broadcasting Receiver
1 Scope of application
This standard specifies the terms and definitions, basic requirements, technical contents and inspection parties of environmental identification products for color television broadcast receivers.
law.
This standard applies to all types of screen size and display mode of color TV broadcast receivers, including cathode ray tube, liquid crystal, plasma
A color television broadcast receiver as a display unit. The main function is TV TV display or monitoring equipment without tuner can refer to
carried out.
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 5296.2 Instructions for use of consumer products - Part 2. Household and similar electrical appliances
GB 8898-2001 Safety requirements for audio, video and similar electronic equipment
GB 12021.7-2005 Color TV broadcast receiver energy efficiency limit value and energy saving evaluation value
GB 24850 flat panel TV energy efficiency limit value and energy efficiency rating
GB/T 18455 packaging recycling mark
GB/T 2035-2008 plastic terminology and its definition
GB/T 20861-2007 Waste product recycling terminology
GB/T 23384 Recyclable logo for products and parts
GB/T 24021-2001 Environmental Management Environmental Labeling and Declaration Self-Environment Statement
SJ/T 11363 Limitation requirements for toxic and hazardous substances in electronic information products
SJ/T 11364 Electronic Information Product Pollution Control Labeling Requirements
3 Terms and definitions
The following terms and definitions apply to this standard.
3.1
Color television broadcasting receiver
Designed to receive, display, and play analog and/or digital color television broadcast signals transmitted over the ground, cable, satellite, or network
Electronic products powered by power supplies.
3.2
Cathode ray tube television
A color television broadcast receiver using a cathode ray tube as a display unit.
3.3
Flat panel television
A television with a flat screen mainly includes a color television broadcast receiver using liquid crystal and plasma as display components.
3.4
Shutdown state off-mode
The product is connected to the power supply and produces no image or sound, and cannot pass through the remote control, external signals or internal signals.
Convert to another state. (GB 12021.7-2005)
3.5
Passive standby mode passive standby mode
The product is connected to the power supply and is in a waiting state. It produces neither sound nor image, and the user can use the direct or the room.
Connect the signal, for example using the remote control, to switch the product to the "Shutdown", "Active Standby" or "Power On" state. (GB 12021.7-2005)
3.6
Power on state
The product is connected to a power supply and generates sound and/or images.
3.7
Energy efficiency index for color television
The color TV energy efficiency index (hereinafter referred to as the energy efficiency index) is the power consumption of a color TV set under standard test conditions for 24 hours.
The ratio of the measured value (E measured) to the power consumption reference value (E benchmark). (GB 12021.7-2005)
3.8
Energy efficiency index for flat panel televisions
It refers to the ratio of the flat panel TV energy efficiency test value (E measured) to the reference value (E benchmark) under the standard measurement method.
Referred to as energy efficiency index.
3.9
Auto power off auto power off
The product automatically enters the standby state or the shutdown state from the power-on state.
3.10
Post-consumer material postconsumer material
A material produced by a household or commercial, industrial or other group as an end user of the product that can no longer be used for the original purpose. Including from sales
The material returned on the chain. (GB/T 24021-2001)
3.11
Post-consumer recycling content postconsumer recycling content
The ratio of the mass (physical quantity) of the post-consumer material used in the product or package.
3.12
Recycling recovery
The process of cleaning, disassembling, crushing, etc. of waste products to meet their original use requirements or for other purposes.
Includes the recycling and utilization of energy. (GB/T 20861-2007)
3.13
Use reuse again
The waste product or its components, components continue to be used or cleaned, repaired and continue to be used for the original purpose.
(GB/T 20861-2007)
3.14
Recycling recycling
Disposal of waste products through cleaning, dismantling, crushing, etc., so that they can be reused as raw materials, but not including energy
Recycling and utilization. (GB/T 20861-2007)
3.15
Compatibility compatibility
The material in the plastic blend does not bleed out, bleed or cause a similar separation. (GB/T 2035-2008)
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 Design Requirements
5.1.1 Product detachable design
5.1.1.1 The product shall be disassembled using general purpose tools and capable of being broken down into reusable parts.
5.1.1.2 When a built-in battery is required, an easy-to-separate design should be used to identify the type of battery.
5.1.1.3 In addition to the light pipe of flat panel TV and flat optical glass, the product shall be marked according to the requirements of GB/T 23384 and easy to separate.
5.1.1.4 The connecting parts of the flat-panel TV display components should be easily separated during the disassembly process to ensure that the mercury lamp is not easily destroyed during the disassembly process.
5.1.2 Product Recyclable Design
5.1.2.1 A plastic component of more than 25 g in mass should use a single type of polymer or copolymer.
5.1.2.2 Plastic parts with a mass exceeding 25 g shall be dismantled without damaging the original parts and shall not contain any material that cannot be separated from the plastic.
Metal objects.
5.1.2.3 Fastened together by bonding, welding or other fastening techniques and cannot be separated using universal tools
The thermoplastic parts shall comply with the compatibility level specified in Appendix B.
5.1.2.4 The decorative parts shall not be sprayed on the plastic parts of the outer casing and protective parts except the name, trademark and product model of the enterprise.
5.1.2.5 All plastic parts except printed circuit boards shall have at least one component using post-consumer materials and declare their post-consumer recycling benefits.
Use the content.
5.1.3 Product Energy Saving Design
5.1.3.1 The product shall have the function of setting the automatic shutdown, and the default value of the setting is the time interval from the last operation in the power on state.
Not more than 4 h.
5.1.3.2 The product shall have an energy-saving mode that sets the brightness according to the environment.
5.2 Production process requirements
Do not use the following solvents for cleaning products and boards. HCFCs, 1,1,1-trichloroethane
(C2H3Cl3), trichloroethylene (C2HCl3), dichloroethane (CH3CHCl2), chloroform (CHCl3), bromopropane (C3H7Br), positive
Hexane (C6H14), toluene (C7H8), xylene [C6H4(CH3)2].
5.3 Product energy requirements
5.3.1 The passive standby state energy consumption of the product shall comply with the requirements of Table 1. Product energy requirements are applicable to the requirements of China's environmental labeling products.
It is also applicable to the requirements of China's environmental labeling low carbon products. Carbon dioxide emissions are calculated in accordance with Appendix A.
Table 1 Product passive standby state energy consumption unit. W
Product Type Passive Standby Power
From January 1,.2012, from January 1,.2012
The product has a switch capable of shutting down ≤1.0 ≤0.5
The product does not have a switch capable of shutting down ≤0.5 ≤0.3
5.3.2 The energy efficiency index of cathode ray tube products should be no more than 0.75. Product energy efficiency index requirements apply to both Chinese environmental labeling products
The requirements are also applicable to the requirements of China's environmental labeling low carbon products. Carbon dioxide emissions are calculated in accordance with Appendix A.
5.3.3 The energy efficiency index requirements for flat products shall comply with the requirements of Table 2, and the carbon dioxide emissions shall be calculated in accordance with Appendix A.
Table 2 Energy consumption (energy efficiency index) requirements for flat products
category
Energy efficiency index
LCD TV plasma TV
China's environmental label low carbon products ≥1.4 ≥1.2
China's environmental labeling products ≥1.0 ≥1.0
5.4 Product radiation requirements
The exposure rate of the cathode ray tube product is not more than 0.03 mR/h.
5.5 Product Hazardous Substance Limit Requirements
5.5.1 The product shall be identified in accordance with the requirements of SJ/T 11364.
5.5.2 Lead (Pb), cadmium (Cd), mercury (Hg), hexavalent chromium (Cr6) harmful substances in metal parts, electronic devices, solders and coatings
The quality content should meet the limit requirements specified in SJ/T 11363. Except for the following applications.
a) lead contained in high melting point solder;
b) lead in electronic ceramic components;
c) the lead content in the steel does not exceed 0.35% by weight, the lead content in the aluminum does not exceed 0.4% by weight, and the lead content of the copper alloy is not
More than 4% by weight.
5.5.3 Plastic parts
5.5.3.1 Lead (Pb), cadmium (Cd), mercury (Hg), hexavalent chromium (Cr6), polybrominated biphenyls (PBB) and polybrominated diphenyl ethers (PBDEs)
The content of hazardous substances shall comply with the limit requirements specified in SJ/T 11363.
5.5.3.2 Short-chain chlorinated paraffins (SCCPs) shall not be added, and the content of short-chain chlorinated paraffins (SCCPs) in plastic parts shall not exceed the plastic
0.1% of the total material parts.
5.5.3.3 Plastic parts used for the housing shall not be made of a material whose base is a halogen polymer, and shall not be added with tetrabromobisphenol A (TBBA) or
An organic halogen compound such as brominecyclododecane (HBCD) or decabromodiphenyl ether (DBDPO) and a phthalate plasticizer. Low added amount
Except for organic fluorine additives and fluoroplastics used to improve the physical properties of plastics, 0.5% of the quality of plastic parts.
5.5.4 Display parts
5.5.4.1 The limits of cadmium (Cd), mercury (Hg) and hexavalent chromium (Cr6) harmful substances in cathode ray tubes are to comply with SJ/T 11363.
5.5.4.2 The mercury content of each lamp in the backlight of the liquid crystal display component shall comply with the requirements of Table 3 and declare the mercury in the backlight of the liquid crystal display component.
The total amount.
Table 3 Mercury content requirements for different lamps
Lamp length/mm
Lamp type mercury content/mg
Straight U type
≤500 ≤3.0 ≤3.5
500~1 000 ≤3.5 ≤4.0
>1 000 ≤4.0 ≤5.0
5.6 Recycling and recycling requirements
Product manufacturers should establish waste product recycling and recycling systems to provide information on product recycling and recycling.
5.7 Packaging materials
5.7.1 The content of vinyl chloride monomer shall not exceed 1 mg/kg.
5.7.2 Hydrochlorofluorocarbons (HCFCs) should not be used as blowing agents.
5.7.3 Identification shall be carried out in accordance with the requirements of GB/T 18455.
5.8 Requirements for product instructions
The product instructions must be sold together with the product. The product instructions should also include the following information on the basis of GB 5296.2.
a) Adjust to the off state when not watching to reduce energy consumption.
b) Under the premise of ensuring the quality of the display, the power consumption of the TV during use can be reduced by reducing the brightness of the display.
c) Information on recycling and recycling of products after disposal.
6 Test methods
6.1 Technical content The detection of 5.3.1 is carried out in accordance with the method specified in GB 12021.7-2005 or GB 24850.
6.2 Technical content The detection of 5.3.2 shall be carried out in accordance with the method specified in GB 12021.7-2005.
6.3 Technical content The detection of 5.3.3 is carried out in accordance with the method specified in GB 24850.
6.4 The technical content of 5.4 is tested in accordance with the method specified in GB 8898-2009.
6.5 Other requirements in the technical content shall be verified by means of document review combined with on-site inspection.
Appendix A
(informative appendix)
Carbon dioxide emissions calculation method
A.1 Calculation method of power carbon dioxide conversion coefficient
The carbon dioxide conversion coefficient (EF) of electricity is based on the publication of the.2009 China Regional Electricity Report by the National Development and Reform Commission.
The amount of on-grid electricity, CO2 emissions and fuel emissions of all power plants in the power system in.2007 in the Announcement of the Network Baseline Emission Factor
In the China Statistical Yearbook, the basic data such as the total national power generation and thermal power generation in.2007 were calculated.
The conversion idea is as follows.
(1) According to the “Announcement on Announcement of China's Regional Power Grid Default Line Emission Factors in.2009”, the thermal power generation of each regional power grid is obtained.
The CO2 emissions are shown in Table A.1.
Table A.1 Regional grid thermal power generation and CO2 emissions
Regional thermal power generation/MW · h CO2 emissions/t
North China Regional Power 776 346 330 754 731 124
Northeast Regional Power Grid 202 542 560 219 122 791
East China Regional Power Grid 635 331 510 535 305 699
Central China Regional Grid 377 233 680 415 974 066
Northwest Regional Power 178 920 940 180 940 805
Southern Regional Power Grid 358 850 130 347 695 831
Hainan Provincial Power Grid 9 244 530 7 365 050
According to the thermal power generation and CO2 emissions of the national grid, the CO2 conversion coefficient of thermal power in the national grid is obtained according to formula (A.1).
Area,
Area,
EQ
EF
EG
= ∑∑ (A.1)
Where. EFy--the coefficient of CO2 conversion of thermal power in the national grid in the yth year, t/(MW·h);
EQarea, y--the total amount of CO2 emitted by the regional grid power system in the yth year, t;
EGarea, y--the power generation capacity of the regional grid power system for the yth year (excluding low-cost/must-operated power plants/units), MW·h;
Y--the year of the data.
(2) This standard assumes that the CO2 emissions from hydropower and nuclear power generation are zero, and then according to the national thermal power CO2 conversion coefficient and
The.2009 China Statistical Yearbook on the total national power generation in.2007 (32.135 million MW·h) and thermal power generation (27.293 million
MW·h), obtained the national electricity CO2 conversion coefficient, calculated according to formula (A.2).
Yy
EF EG
EF
EG
×' = ' (A.2)
Where. EFy'--the national electricity CO2 conversion coefficient of the y year, t/(MW·h);
EFy--the national CO2 conversion coefficient of thermal power in the y year, t/(MW·h);
EGy--the number of thermal power generation in the first year of the power system (excluding low-cost/must-operated power plants/units), MW·h;
EGy'--the total power generation of the power system for the yth year, MW·h;
Y--the year of the data.
Calculation result. =0.804 5 t/(MW·h)=0.804 5 kg/(kW·h)..2007EF ‘
A.2 Calculation method of CO2 emissions
A.2.1 Calculation of CO2 emissions from passive standby state of products
Multiplying the energy consumption by the CO2 conversion coefficient of the power to obtain the CO2 emission, calculated according to the formula (A.3).
2007M EF Q'= × (A.3)
Where. M--CO2 emissions, g/h;
2007EF ′ --.2007 national electricity CO2 conversion coefficient, kg/(kW · h);
Q--typical power consumption, W.
According to the above formula, the CO2 emission requirement of the product is calculated, see Table A.2.
Table A.2 Requirements for energy consumption and CO2 emissions from passive standby state of products
product type
From January 1,.2012, from January 1,.2012
General indicator environmental label low carbon product indicator
CO2 emissions/(g/h) standby energy/W CO2 emissions/(g/h) standby energy/W
The product has a switch capable of shutting down ≤0.80 ≤1.00 ≤0.40 ≤0.50
The product does not have a switch capable of shutting down ≤0.40 ≤0.50 ≤0.24 ≤0.30
A.2.2 Calculation of CO2 emissions from products
The CO2 emission is obtained from the energy efficiency index, the power CO2 conversion coefficient and the power consumption reference value, and is calculated according to the formula (A.4).
2007M EF E'= × measured (A.4)
Where. M--CO2 emissions, kg;
2007EF ′ --.2007 national electricity CO2 conversion coefficient, kg/(kW · h);
E measured - power consumption, kW · h.
According to the above formula, the CO2 emission requirement of the product is calculated.
China's regional power grid baseline emission factor announced by the National Development and Reform Commission and the national total power generation and thermal power generation announced by the National Bureau of Statistics
The data will update China's regional grid baseline emission factors every year. Therefore, China's environmental labeling low-carbon product standards use electricity.
The CO2 conversion factor also needs to calculate the latest Chinese power CO2 conversion coefficient based on the latest data published by it. Determination of CO2 emissions
It is based on whether the energy consumption index is up to standard. In the actual testing process, the energy consumption index meets the requirements, that is, the CO2 emission quantity also meets the requirements.
Appendix B
(informative appendix)
Compatibility table for different thermoplastics
Compatibility plus
basis
Add material
ABS ASA PA PBT PBT PC PC PC ABS PC PBT PE PET PMMA POM PP PPE PPE PS PS PVC SAN TPU
ABS @ @ @ @ @ @ @ @
ASA @ @ @ @ @ @ @ @
PA @ @ @ @ ■ ■ ■ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @
PBT @ @ @ @ @ @ @ @ @ @ @ @
PBT PC @ @ @ @ ■ @ @ @ @ ■
PC ■ @ ■ @ @ @ @ ■ @ @
PC ABS @ @ @ @ @ @ @ ■
PC PBT ■ @ @ @ @ @ ■
PE ■ ■ @ ■ ■ @ @■ ■ ■ ■ ■ ■ @ ■ @ ■ @
PET @ @ @ @ @ @ @ @ @ @ @ @
PMMA @ ■ ■ @ @ @ @ @ @ @ @ @ @ @
POM @ @ @ @ @ ■ ■ ■ @ @ ■ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @
PP ■ ■ @ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ @ ■ @ ■ @
PPE @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @
PPE PS @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @
PS @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @
PVC ■ ■ ■ ■ ■ ■ @ ■ @ ■ @ @
SAN @ @ @ @ @ @ @ @ @
TPU ■ @ @ @ @ @
. compatible; @. limited compatibility; ■. not compatible.
ABS. acrylonitrile-butadiene-styrene copolymer; ASA. acrylic acid-styrene-acrylate; PA. polyamide; PBT. polybutylene terephthalate; PC. polycarbonate; PE. polyethylene ;PET. polyethylene terephthalate
Ester; PMMA. polymethyl methacrylate; POM polyoxymethylene; PP. polypropylene; PPE. polyphenylene ether; PS. polystyrene; PVC. polyvinyl chloride; SAN. acrylonitrile-styrene; TPU. thermoplasticity Polyurethane.
Related standard:   HJ 2546-2016  HJ 2547-2016
   
 
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