GB/T 19657-2005 Thermal test source lamps for heating tests on lamps

This standard specifies the requirements for heat test source lamps (HTS) for heating tests described in the GB 7000 series of standards. These heating tests are mainly used to verify the effects of heat conduction and convection on lamp holders. For the source and characteristics of this standard, see Appendix A. GB/T 19657-2005 Heat test source lamps for heating tests on lamps GB/T19657-2005 Standard download decompression password: www.bzxz.net

ICS 29. 140.30
National Standard of the People's Republic of China
GB/T19657—2005/IEC60634.1993 Heat test source (HTS) lamps for carrying out heating tests on lamps (IEC 60634:1993, IDT)
Issued on 18 January 2005
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Administration of Standardization of the People's Republic of ChinabZxz.net
Implementation on 1 August 2005
GB/T19657—2005/IEC60634:t993 This standard is equivalent to IEC60634:1993 "Heat test source lamps for carrying out heating tests on lamps" (English version). For ease of use, this standard has been edited as follows: a) "This international standard" is changed to "this standard"; b) the foreword of the international standard is deleted; c) the decimal point is replaced by ". This standard is compiled in accordance with GB/T 11-2000 "Guidelines for standardization work Part 1: Structure and compilation rules of standards" and GB/T20000.2-2001 "Guidelines for standardization work Part 2: Rules for adopting international standards". Annex A and Appendix B of this standard are normative appendices. This standard is proposed by the China Light Industry Federation. This standard is under the jurisdiction of the National Technical Committee for Standardization of Lighting Appliances (SAC/TC221). The original unit of this standard: Beijing Electric Light Source Research Institute. The drafters of this standard: Quan Hong, Yang Xiaoping, Zhao Xiurong, Gao Shannan. This standard is formulated for the first time. 1 Scope GB/T 19657—2005/IEC 60634:1993 Heat test source lamps for heating tests on lamps
This standard specifies the requirements for heat test source lamps (I1.T,S.) for heating tests described in the GB 7000 series of standards. These heating tests are mainly used to verify the effects of heat conduction and convection on the lamp holder. For the source and characteristics of this standard, see Appendix A. In cases where it is not appropriate to use a heat test source lamp (HTS), an alternative heat test source lamp (A,HTS,) may be used. For how to select and prepare such lamps, see Appendix B of GB7000.1-2002. Appendix A also gives certain requirements for radiation test sources (RTS). 2 Normative references
The following documents shall apply to the following documents: The references in this standard become the clauses of this standard. For all referenced documents with dates, all subsequent amendments (excluding errata) or revisions are not applicable to this standard. However, all parties to the agreement based on this standard are encouraged to study whether the latest versions of these documents can be used. For all referenced documents without dates, the latest versions are applicable to this standard. GB7000.1-2002 General safety requirements and tests for lamps (IEC60598-1:1999, 1.uminaires-Part1:Generalreqtitenents and tests for luminaires, IDT) GIB14196.! Safety requirements for tungsten filament lamps for household and similar general lighting purposes (GB14196.1-2002, 1EC60432-1: 1999, Incandescent lamps-Safety specifications--Part 1: Tungsten filament lamps for household and similar general lighting purposes, IDT) GB14196.2 Safety requirements for tungsten halogen lamps for household and similar general lighting purposes (GB14196.2-2002, 1FC60432-2: 1959, Incantescent lamps--Safety specifications-Part 2: Tungsten halogen lamps for domestic and similar general lighting purpases,IDT)QB/T1112 Naming method for glass bulb models of electric light sources (idtIEC60887:1988)QB/T2512 Standard measurement method for lamp cap temperature rise (idtIEC60360:1998)3 Terms and definitions
This standard adopts the following definitions:
Heat test source (HTS)) heat test sourceH.T,S.) A lamp whose lamp cap temperature rise (At,) is equal to the maximum allowable lamp cap overflow rise (△tmx) of a specific type of lamp shown in the corresponding parameter table in the corresponding standard of GB 14196.
Alternative heat test source (A, HTS) Alternative heat lest source (AHTS) Commercial lamps whose lamp cap temperature rise (△t,) is below 5K and can reach the maximum allowable lamp cap temperature rise (t..max) of a specific type of lamp as shown in the corresponding parameter table in the corresponding standard of GB14195: Regarding 100V lamps, it is still under study.
Radiation test source (R, T, S.) Radiatlon test source (k, TS) Commercial lamps that can simulate the most unfavorable radiation state of this type of lamp. 4 General requirements
The lamp cap temperature rise should be measured at an ambient temperature of 25℃ and in accordance with the provisions of QB/T2512. GB/T19657—2005/IEC 60634:19935 Requirements for heat test source lamps for heating tests of incandescent lamps The temperature rise of the lamp cap shall be equal to the maximum allowable lamp cap temperature rise of the specific type of lamp shown in the corresponding parameter table in the corresponding standard of GB14196 5.1
(Ata.my).
5.2 The rated power, size and lamp cap model of the lamp are given in Tables 1 and 2. Table 1 Parameters of heat test source lamps for heating tests of ordinary lighting lamps Rated power/
Nominal glass diameter and glass shell shape!
60A or PS
60A or PS
65A80A or PS
80A or PS
≤For glass bulb shape, please refer to QB/T1112
Maximum total length/
Parameters of heat test source lamp for heating test of candle-shaped and dome-shaped lamps, rated power/
Nominal corrugated shell diameter and glass bulb shape!
35-B or C
35-B or C
45-G or 1
45-G or P
a Glass bulb shape See OB/T1112
Maximum total length
5.3 The tolerance of the lamp rated power and the lamp holder temperature rise shall be within the limits determined by A, BC, D, E and F shown in Figure 1. The corresponding test voltage shall be marked on the lamp or specified in the parameter table of the heat test source lamp. Note: In order to make it easier for the manufacturer's products to reach the specified lamp holder temperature rise value, the test voltage and its delamination of the heat test source lamp are not specified. 6
W% is the deviation rate of the rated power;
t,% is the deviation rate of the lamp holder temperature rise.
GB/T19657-2005/IEC60634:19933. 75
Note: The above tolerance range graph takes into account the following situation: that is, in the production process of the heat test source lamp, the span of the lamp cap temperature rise is much larger than that of the power. Experience shows that when measuring the temperature at the shunt point of the lamp, the influence of the power tolerance on the measured temperature is 1.5 times greater than the influence of the lamp cap temperature rise tolerance on the measured temperature, which allows the lamp cap temperature rise tolerance to be widened, so that more lamps can be selected as heat test source lamps. In the area surrounded by A, B, C, D, E and F, the tolerance of the lamp cap temperature rise can be larger than the span of the power tolerance. Figure 1 Tolerance of lamp power and lamp cap temperature rise
GB/T 19657—2005/IEC 60634:1993A, 1 before
Appendix A
(Normative Appendix)
Origin and development of heat test source lamps
Luminaires for incandescent lamps must meet various safety requirements, two of the most important of which are that the lamps must prevent users from accidentally touching live parts and from being injured by lamp fires. This requires strict limits on the temperature generated during the use of the lamps (see GB7000.1). In order to prevent premature aging, melting or shrinkage of parts providing electric shock protection or fixed current-carrying parts, the temperature of the materials used in the lamp should not exceed the temperature limit for which it is applicable. In order to verify this requirement, the lamp must be subjected to a heating test during routine testing. For this test, two types of test lamps are used: a heat test source lamp, which is mainly used to verify the conduction heat effect of the lamp holder in the lamp holder and the circuit; and an auxiliary test source lamp, which is used to verify the effect of thermal radiation energy on other parts of the lamp. For this purpose, commercial lamps with corresponding glass shell coatings and shapes, sizes, lamp holders and rated voltages should be used. The lamp glass must be transparent, without unnecessary markings, coatings, etc. For (100V~130V) low medical general lighting lamps, since some types of lamps use axial filaments and other types of lamps use transverse filaments, which can produce different temperatures in the lamp, the shape of the filament of this lamp must be taken into account. Lamps with reflectors or reflective bowls can also be used as radiation test source lamps, but lamps with transparent non-reflective parts cannot be used as radiation test source lamps (even if such lamps have been commercialized).
Radiation test source lamps do not need to be equipped with adjustable mixed rise △, A. 2 Basic provisions for thermal test source systems
The measurement of thermal test sources and lamp-related temperatures is based on the following basic provisions: a) Thermal test source lamps are basically determined according to rated power, size, lamp cap type and lamp cap temperature rise; b) The measurement method of lamp cap temperature rise △t, (set simplified method) is given in QB/T2512 c) The maximum average lamp cap rise of white baking lamps with different rated powers is given in the corresponding standard of GB14196: d) For these rated powers, the thermal test source lamp is used to simulate the lamp with the maximum allowable average lamp cap temperature rise of the corresponding rated power; e) The maximum rated power of the lamp used should be marked on the lamp. A.3 General Notes
1) The basis of the "gentleman's agreement" of (EE/FC 1963) is that the current practical practices for lamps should not be changed by new requirements, and this basis is still valid.
2) The agreement of CEF/1FC 1963 only makes detailed provisions for pear-shaped lamps with F27 lamp caps and rated powers of 60W, 100W, 150W, 200W and 300W. Secondly, the parameters of lamps with B22 lamp caps and rated powers of 60W, 100W and 150W are derived.
3) Lamps not mentioned in 2) above must comply with the following conditions: a) For lamps with the same glass bulb shape and power but different lamp cap models, since they are used in different lamps, the same temperature rise requirements do not have to be adopted.
GB/T 19657—2005/1EC 60634:1993b) If lamps with the same power and lamp cap but different glass bulb shapes are used in the same luminaire, they should have the same temperature rise △ limit values. For example, this is the case with pear-shaped lamps and mushroom-shaped lamps, but not necessarily with tube-shaped, candle-shaped or dome-shaped lamps.
Lamps with the same lamp cap and glass bulb shape but different rated power can have different temperature rise △t limits because their critical state in the luminaire test is the state when tested with a thermal test source with the maximum rated power. Therefore, under conditions that do not endanger safety, lamps with lower rated power can have a suitably higher temperature rise △t. For detailed limit value data, please refer to Appendix B GB/T19657--2002 of GB7000.1-2002. 5/IEC60634,1993 Test period:
Thermal test
Average temperature rise of corresponding standard products of GB14196 Thermal test
Temperature rise of test source 3t
Practical period:
Average
Temperature rise of product lamp (at)
Appendix B
(Normative Appendix)
Basic system diagram
Note: The rated power of the thermal test source lamp shall be equivalent to the power (maximum value) marked on the lamp.
Temperature limit value specified in the technical requirements of GF7000,1 or related lamps
Temperature limit value specified in the technical requirements of CiB7000.1 or related lamps
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