ISO8124

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广东安规检测
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IEC61347/UL935镇流器热试验箱

灯具防风罩

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UL498插头插座量规

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家电温升测试角

针焰试验机现货

热电偶焊机现货

家电125mm试验指

E12灯头量规

无绳壶无绳电熨斗插拔寿命试验机

IEC60335试验指甲

' e3 W2 u2 F/ G- _1 x  MISO 8124-1 AMD-2 2011 Draft
! r8 D8 T0 |. {8 C, jISO 8124-1 AMD-1 2011 Draft

samli

期待正式版！ ISO 8124-1:2012
http://www.iso.org/iso/home/stor ... .htm?csnumber=62327

yeman

更新哪些内容呀？

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Contents Page
3 Terms and definitions ...........................................................................................................................3
' O1 C+ ~9 `7 `$ M4 Requirements........................................................................................................................................3
# M$ |, Z9 k* `7 P9 j' l4.30 Magnets and magnetic components....................................................................................................3
, [# Z& i8 l; n4 l! s% A8 W4.30.1 Magnetic/electrical experimental sets intended for children over 8 years......................................3
* P8 G: C! B0 B3 ^4.30.2 Toys other than magnetic/electrical experimental sets intended for children over 8 years..........4
+ W$ Q2 I2 @2 [2 ?5 k2 S5 Test methods.........................................................................................................................................4
* ?: O0 A7 H& H5 P9 y" Q5.31 Tension test for magnets......................................................................................................................5
8 k7 s. ?" K3 N6 [& ]% z: l5.31.2 Toys with magnet(s) or magnetic component(s)..................................................................................5
5.31.3 Toys that contain one magnet only and a mating metal component...............................................5
, B" A* q: I) o5 M8 a5.31.4 Toys that contain one magnet only and no mating metal component.............................................5
% S# L, U9 N" Y! n) c5.32 Magnetic flux index...............................................................................................................................6
  B& f9 m* s) Z3 f4 B/ r5 n2 v5.32.1 Principle.................................................................................................................................................6
9 P$ K" B9 R+ P$ Z: z5.32.2 Apparatus ..............................................................................................................................................6
5.32.3 Procedure ..............................................................................................................................................6
5.32.4 Calculation of magnetic flux index ......................................................................................................7
6 A* Z  o9 s. j. p5.33 Cycling ...................................................................................................................................................7
, J- j' O& T+ ~" V) u8 f5.34 Impact test for magnets ........................................................................................................................7
5.35 Soaking test for magnets......................................................................................................................7
, R! U- c4 J7 o0 T5 Z5 qB.2.21 Magnetic/electrical experimental sets for children over 8 years ......................................................8
E.44 Magnets .................................................................................................................................................8

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3 Terms and definitions
8 ^7 L: P: k' fAdd the following definitions:
3.xx
magnetic component
1 o- B) U# h0 rany part of a toy which contains an attached or fully or partially enclosed magnet
3.yy
magnetic/electrical experimental set
8 y  _: k2 t5 D* Y  etoy containing one or more magnets intended for carrying out educational experiments involving both
, T; e8 s0 m) w! m) Q/ umagnetism and electricity
3.zz
1 m% {# D- I( F2 rfunctional magnet in electrical or electronic components of toys
+ m& {1 s; r" A+ Xany magnet necessary for the function of motors, relays, speakers and other electrical or electronic
; ~6 T1 C/ c, S  s) _! r3 jcomponents in a toy where the magnetic properties are not part of the play pattern of the toy
4 Requirements
Add the following requirements:
4.30 Magnets and magnetic components
* j5 p9 A9 E  v+ j$ xSee Clause E.44.
* c3 Y9 W; B1 ~: ?; M6 {9 U) S4.30.1 Magnetic/electrical experimental sets intended for children over 8 years
8 y, F8 p! `, |+ t9 ?# iMagnetic/electrical experimental sets intended for children 8 years and over that contain magnetic
components shall carry a warning (see B.2.21 for guidance) if they both:
, E$ ^; z' j* D8 H5 |- have a magnetic flux index greater than 50kG2mm2 (0,5 T2mm2) when tested according to 5.32 (magnetic
flux index)
- fit entirely in the cylinder when tested according to clause 5.2 (small parts test)
* |, W0 A2 b# i2 |/ yNOTE Magnetic/electrical experimental sets intended for children under 8 years shall comply with the requirements in
% u3 k( A/ S/ v# U; }. l4.30.2 (toys other than magnetic/electrical experimental sets).
6 t- `0 f. \3 J0 hThese requirements do not apply to functional magnets in electrical or electronic components of toys.

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4.30.2 Toys other than magnetic/electrical experimental sets intended for children over 8 years
a) Any loose as received magnet(s) and magnetic component(s) shall either have a magnetic flux index less
than 50 kG2mm2 (0,5 T2mm2) when tested in accordance with 5.32 (magnetic flux index), or shall not fit
entirely in the cylinder when tested in accordance with 5.2 (small parts test).
b) Wooden toys, toys intended to be used in water and mouth pieces of mouth-actuated toys with magnets
or magnetic components shall be tested in in accordance with 5.35 (soaking test for magnets) before
) ?% Q& b$ N' R) H; Vbeing tested in accordance with 4.30.2 c) below.
, [" _7 Z5 s" n) \c) The following tests shall be carried out in the prescribed order on all unique magnetic component(s). The
components used for this testing shall not have been previously subjected to normal use and reasonably
5 V2 K& ^% ^8 W- l! qforeseeable abuse tests. Any magnet(s) and magnetic component(s) that become liberated from a toy, or
from a loose as received magnetic component shall either – when tested according to the tests listed
below - have a magnetic flux index less than 50 kG2mm2 (0,5 T2mm2) when tested in accordance with
  p# h: l( K6 T# L1 P+ c, `& r4 h5.32 (magnetic flux index), or shall not fit entirely in the cylinder when tested according to 5.2 (small parts
, u- v6 A$ Q# Gtest).
⎯ 5.33 (cycling)
⎯ 5.24.2 (drop test) or if applicable, 5.24.3 (tip over test for large and bulky toys)
⎯ 5.24.5 (torque test)
8 X5 E" T9 `! a, u! u" J8 B⎯ 5.24.6.1 (tension test, general procedure)
0 h$ I! b) y1 V9 o! g) p⎯ 5.24.6.2 (tension test for seams in soft-filled (stuffed) toys and beanbag-type toys), if applicable
⎯ 5.34 (impact test for magnets)
⎯ 5.24.7 (compression test), for magnets that are accessible but cannot be grasped (as specified in
1 @4 B. z& E8 h7 [5 G5.24.6.1 (general procedure)
. W2 A6 Q4 G8 e6 w9 u) P" _3 W0 j2 r⎯ 5.31 (tension test for magnets))
NOTES
1 Examples of unique magnetic components are rods of different sizes or shapes containing magnets.
. c7 Q$ y7 ?% b; k2 If the toy contains one magnet, the component holding the magnet is considered to be a unique component.
3 An example of a magnet that is accessible but cannot be grasped is a magnet that is recessed.
& Y8 c& i- f( y( LThese requirements do not apply to functional magnets in electrical or electronic components of toys
5 Test methods
6 q; F/ b- Y0 X6 P( N, BReplace the second paragraph of clause 5.14 (impact test for toys that cover the face) with the following:
Drop a steel ball of diameter (16 ± 0,15) mm and mass of (16,9 ± 0,7) g from a height of (130 ± 0,5) cm onto
the horizontal upper surface of the toy in the area that would cover the eyes in normal use.
Add the following new note to clause 5.24.1 (reasonably foreseeable abuse tests, general)
NOTE: The tests according to clause 4.30.2 are carried out in the order specified in the clause, on a toy or
part of a toy that has not been previously tested according to this clause.
" f$ n( `  N0 ]0 a0 }Add the following test methods:
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5.31 Tension test for magnets
See 4.30.2 c).
5.31.1 Principle
These tests simulate the intended or reasonably foreseeable play pattern. It is recognized that toys may
contain a single magnet or a combination of magnets, magnetic components and/or metal mating parts and
- g+ {3 |! h0 e' \, M; ~the tests are designed to simulate a reasonably foreseeable play pattern using these components to attach
and detach the magnetic parts.
For toys that contain more than one magnet/ magnetic component, the test specified in 5.31.2 (toys with
  _) }" }# S  b: o3 ]( s. ?8 o/ Z3 @magnet(s) or magnetic component(s)) shall be carried out unless it is not possible to perform the test without
damaging the toy. In the latter case, the test shall be carried out using the reference disk, as described in
5.31.4 (toys that contain one magnet only and no mating metal component).
NOTE: An example of a case where it is not possible to perform the test in 5.31.2 with magnet(s) or magnetic
component(s) without damaging the toy, is a toy figurine with one accessible but non-graspable magnet in each foot.
Toys that contain one magnet only and a mating metal component shall be tested according to 5.31.3 (toys
that contain one magnet only and a mating metal part).
1 M' T* Q4 B' B+ k  j$ x$ L$ B% iToys that contain one magnet only and no mating metal component, shall be tested according to 5.31.4 (toys
5 f& R6 B4 M2 B0 Cthat contain one magnet only and no mating metal component), since this simulates a play pattern where the
toy is attached and detached to a surface that is not delivered with the toy.
5.31.2 Toys with magnet(s) or magnetic component(s)
. _3 K0 k0 q* y8 a( DIdentify the magnet or magnetic component in the toy that is most likely to be able to detach. The identified
9 V$ K6 B5 }6 B- Amagnet or magnetic component shall be subjected to the tension test for magnets.
; {( q. B5 d3 y5 tIf it is not possible to determine which magnet or magnetic component(s) in the toy is most likely to be able to
- P# K4 Y& f8 n% q/ Odetach the magnet under test, it is permissible to repeat the test with another magnet or magnetic component
4 m8 o2 x' N& L* |" b& Ifrom the toy.
' A/ t+ k1 l+ c" d: TWithout damaging the toy, place the magnet or magnetic component in the orientation of attraction, as close
as possible, making contact if possible, to the magnet to be tested. Gradually apply a pulling force to the
9 X) D; R! B; n  lmagnet/magnetic component until it separates from the magnet under test. Perform the test 10 times or until
the magnet under test is detached from the toy, whichever occurs first.
Repeat the procedure for any other magnet that in accordance with 4.31.2 (toys other than magnetic/electrical
" O; y. J$ S1 d+ a: |# Oexperimental sets intended for children over 8 years) shall be subjected to the tension test for magnets.
5.31.3 Toys that contain one magnet only and a mating metal component
- g8 U& E4 b! X6 `# N" {0 aWithout damaging the toy, place the metal components as close as possible, making contact if possible, to the
5 y. W. F+ G" }& Y. N" j, X% Zmagnet to be tested. Gradually apply a pulling force to the metal component until it separates from the
5 L4 ^# V* A6 m' R$ r4 ^% jmagnet under test. Perform the test 10 times or until the magnet under test is detached from the toy,
whichever occurs first.
/ C3 g0 N; y* z, V1 L2 V3 h5.31.4 Toys that contain one magnet only and no mating metal component
5.31.4.1 Apparatus
; s% B8 U2 U' y' D$ I/ KNickel disc with a minimum nickel content of 99 %, and having the following dimensions:
7 i3 M! j; ~( y) {  j- diameter: (30 ± 0.5) mm
9 {$ v4 p& I0 _8 y  E* `- thickness: (10 ± 0.5) mm

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5.31.4.2 Procedure
2 k* ^' s0 p/ }% ?) _Without damaging the toy, place the flat part of the disc as close as possible, making contact if possible, to the
6 I' ]8 ~2 x1 ]+ f0 q$ o7 Omagnet to be tested. Gradually apply a pulling force to the disc until it separates from the magnet under test.
Perform the test 10 times or until the magnet under test is detached from the toy, whichever occurs first.
: d7 _) p5 R# Z  j9 M5.32 Magnetic flux index
1 S' A  D& c8 ?0 \" JSee 4.30.1, 4.31.2 a) and c).
5.32.1 Principle
# d8 ?. x% H% J  p# [. l% s# u8 wThe magnetic flux index is calculated based on the results from measurements of the flux density and the pole
8 H" Z" e9 E% Y6 _2 csurface area.
6 O3 I6 ]- s0 D: P1 A5.32.2 Apparatus
5.32.2.1 Direct current field Gauss meter, capable of determining the field to an accuracy of 5 G.
The meter shall have an axial type probe with
- an active area diameter of (0,76 ± 0,13) mm
- a distance between the active area and probe tip of (0,38 ± 0,13) mm
. B0 X; a( e( n4 a7 v5.32.2.2 Calliper, or similar device with an accuracy of 0,1 mm.
5.32.3 Procedure
6 k3 b9 V' S0 w  m, n& V' u; B- N+ W5.32.3.1 Measurement of flux density
& ]3 O( c, e, Q: PIdentify the surface of the magnet that is the pole.
; e( Q2 Z8 f9 T2 m+ JPlace the tip of the Gauss meter probe in contact with the pole surface of the magnet. For a magnetic
component (where the magnet is fully or partially imbedded in part of the toy), place the tip of the probe in
8 ?: I6 \4 G7 A6 ?contact with the surface of the component.
% Q6 J! U7 [' I' tMaintain the probe in a position perpendicular to the surface.
Move the probe across the surface to locate the maximum absolute value of the flux density. Record the
maximum absolute value of the flux density.
NOTE Since the meter can read both negative and positive values, the absolute value is used for calculations.
! ~" s6 w) l% L5.32.3.2 Measurement and calculation of the pole surface area
1 f" H# G/ l* i7 E1 @If the magnet is imbedded/attached as part of a magnetic component, extract the magnet from the component,
even if it is necessary to break the toy.
8 Z) |* ~" x' LIf the pole surface of the magnet is flat, measure the dimensions with an accuracy of ± 0,1 mm and calculate
* I, b/ R' o: bthe area using the appropriate geometric formula.
If the pole is not flat, (for example hemispherical) measure the maximum diameter of the magnet
perpendicular to an axis through the magnetic poles (see Figure XX), with an accuracy of ± 0,1 mm and
calculate the area of the corresponding cross section. For multi-pole magnets, measure and calculate the
area of the largest single pole, which can be identified using magnetic field viewing film or equivalent.

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NOTE An example of a multi-pole magnet is a rubberized/plastoferrite magnet, consisting of multiple strips or poles.
# U) c8 a% i; Q0 c5 ^" \Figure XX – Maximum diameter of magnet with a non-flat pole
Key
1 maximum cross-section perpendicular to the axis
( \0 V6 p* Z1 J% k; }3 H4 W4 Z2 axis through the magnet poles
6 `0 {1 D3 L2 C( S5.32.4 Calculation of magnetic flux index
The flux index (kG2mm2) is calculated by multiplying the calculated area of the pole surface (mm2) of the
' |: Y! k$ D$ J  l& Ymagnet by the square of the maximum flux density (kG2).
+ r  O# ~& q% {1 \0 h# c. O5.33 Cycling
See 4.32.2 c).
- [" g. K" x' ^7 u- G. ^Ten cycles as described below, shall be performed on the as-received magnet(s) or magnetic component(s).
The magnet or magnetic component shall be brought together to a distance that initiates magnetic attraction,
be released, and then pulled apart to the distance where magnetic attraction ceases. Each attachment and
detachment shall count as one cycle. If no other magnets or magnetic components are provided with the toy,
the mating metal part or surface, according to the toy’s intended play pattern, shall be used for cycling
+ E6 i3 P) X5 Y% ^purposes. If no other metal parts or surfaces are provided with the toy, the apparatus described in 5.31.4 shall
5 t+ l0 g% e. k/ }8 j- j( Obe used for cycling purposes.
5.34 Impact test for magnets
See 4.32.2 c).
8 i5 h  e5 o3 r; D/ b9 T+ g' oPlace the relevant component of the toy in the most onerous position on a plane horizontal steel surface and
drop a metallic weight with a mass of (1 ± 0,02) kg, distributed over a diameter of (80 ± 2) mm, through a
distance of (100 ± 2) mm onto the toy.
3 n6 T* }. N% T7 V, oDetermine whether any liberated magnets or magnetic components fit entirely in the cylinder when tested in
  \- f: _& Z3 f6 _4 n- N) P0 B3 Faccordance with 5.2 (small parts test).
8 |5 U: Y1 O5 n( x+ I2 J5.35 Soaking test for magnets
& R$ _  a( A2 b- JSee 4.30.2 b).
Submerge the toy or toy component completely in a container of demineralised water at a temperature of (20
± 5) °C for 4 min. Remove the toy, shake off the excess water and keep the toy at room temperature for 10
, c3 n' y8 Y* @9 n: P% Smin.
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Perform the soaking test for a total of four cycles.
- ^3 @+ Z/ u! r4 |; Z5 x0 gImmediately after the last cycle, determine whether any liberated magnets or magnetic components fit entirely
: t+ X# m5 c0 Oin the cylinder when tested in accordance with 5.2 (small parts test).
Annex B Labelling
Add the following clause:
B.2.21 Magnetic/electrical experimental sets for children over 8 years
% {; O- E) I# s' ?6 }7 `: n. vSee 4.30.1 and E.44)
! u( s' h0 C3 O( E3 O4 Q' S: LThe packaging and the instructions for use of magnetic/electrical experimental sets intended for children 8
years of age or older shall carry a statement comparable or similar to the following.
“WARNING! Not suitable for children under 8 years. This product contains (a) small magnet(s).
% l4 W; v$ a+ B; i+ eSwallowed magnets can stick together across intestines causing serious infections and death. Seek
immediate medical attention if magnet(s) are swallowed or inhaled.”
8 E$ X( a8 e7 m" r8 }* mAnnex E Rationale
9 H% l8 |1 b* S: G- zAdd the following clause:
E.44 Magnets
4 ~& ~; F  x- }, x. d: cSee 4.30.
These requirements are intended to address the hazards associated with ingestion of strong magnets (e.g.
9 Z' D* P" R( I* w' S3 c. yneodymium iron boron type magnets (“NIB”)), that are capable of causing intestinal perforation or blockage.
These hazards are additional to those associated with small parts such as suffocation or asphyxiation (see
E.6). These requirements apply regardless of the age of the intended user.
# }# O) N/ k& K( ?5 ]Magnets found by children can be ingested. If more than one magnet, or one magnet and a ferromagnetic
  ]2 V0 P% e3 s3 Q. i5 Lobject (for example an iron or nickel object) is ingested, the objects can attract each other across intestinal
8 z* }% W4 _! u0 ?* [walls and cause perforation or blockage, which can cause severe injuries that may be fatal.
/ e4 ~. \/ ?$ l/ _* JMultiple incidents, including at least one fatality, have been reported involving ingestion of magnets resulting
in perforation or blockage of the intestines. These incidents have involved children younger and older than 3
/ A/ x$ R; `9 c  yyears of age. Medical signs associated with intestinal perforation or blockage can easily be misinterpreted
+ j* m$ T. u( ysince many children exhibit only flu-like symptoms. Such misinterpretations have caused delays in the medical
' p! k# U+ P7 m9 c% {: ptreatment and led to serious consequences for children.
* n, a+ D; ?8 t: a2 N, {. D, oFor the purpose of this standard, magnets or magnetic components that could be ingested are identified using
the small parts cylinder. The small parts cylinder was originally designed to identify small parts in toys
( I+ V9 ]5 j# W6 n" t! U3 ?$ v' f# \intended for children under 3 years of age, which are capable of causing suffocation or asphyxiation. It was
not designed for identifying objects that can be ingested by older children. The decision to use the small parts
: }% x2 W# w# D8 F5 dcylinder also for assessment of magnets or magnetic components that can be ingested was made for practical
reasons: The cylinder is a well known test template and it provides a safety margin since the magnets and
6 p' i  h+ q) y+ b' [magnetic components that have been involved in incidents all fit into the cylinder with a large margin. This
same principle has been applied in the requirements for expanding materials.
The risk of magnets attracting each other across intestinal walls is a function of magnet strength. A limit value
in the form of a magnetic flux index has been introduced to define what a sufficiently weak magnet is. Analysis
( Z: L( a# o9 U& H. aof the data indicates that only the small, powerful NIB type magnets have been involved in the known
6 B0 o( E2 Q7 h1 ?- r, n& l' Zincidents. Further analysis has determined that magnets with a magnetic flux index less than 50 kG2mm2 (0,5
% c. z1 P1 G9 v$ s( [--`,`,``,,`,```,```,,````,,`,,`-`-`,,`,,`,`,,`---