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Question:3 v' L: C. E5 h" c* i$ }1 d+ i
How is non-separable thin sheet insulation in wound components tested?+ x) Y4 a! k2 O. G) `& ~
Rationale:. i. f" k: A1 |# N, I) q
There are non-separable thin sheet foils on the market and used in wound components,
) ?3 B5 J) q) d0 _which cannot be tested according to the requirements and test-method in the existing w |2 J% |$ V5 g
standard. A proposal was made to TC74-WG6 how this matter can be handled. The
2 ?# Q- K) z9 l7 M R- F0 vproposal is attached.% s" k9 S7 V2 A' R c+ y
Decision:0 i1 Q! Y/ F& `( l* g
Use of non-separable thin sheet insulation in wound components
* R: C- p$ n* L+ I) u4 mThe following proposal shall be used until the new edition is published.
8 m ?5 T, R9 d* V" {9 G5 m1. Introduction
6 D1 G9 \* H/ [6 z, pThis document presents two alternative versions of the test procedure given in IEC
9 @( ]5 x$ r0 F8 }+ d+ D: J* w61558-1 for checking the mechanical durability of thin sheet materials.
& H8 E. r I' n0 L" ITest method X adapts the published procedure to the conventions and practices used in5 l# @/ g# M1 F8 p; }1 u
IEC 60950. In Method X, the metal foil is secured to the sample prior to the test.
& u) c: E, K |* S9 fTest method Y is the slightly different procedure observed on a video presentation,0 q- K% I: w2 K$ z) y' G: _. k
whereby the metal foil is only added to the test assembly after the sample has been
2 w. d1 A, \2 e7 c- S8 M7 Ystressed by rotating it in the test fixture.
& L, S( S% @# w7 ATest method Y appears to be the more practical method, and is evidently how the test is2 T5 R: m* ~, ^6 P: t! ]* l
carried out in at least one test laboratory. The two methods should give the same results.
0 U1 O* ]+ z, n# X2. Proposal- h, a; i. F! n z5 x
Change the title of 2.10.5.2 to the following:# C* @ x' \3 {3 s7 p8 d
2.10.5.2 Separable thin-sheet material! V! l( R$ B& v$ \* ^: j0 a& L
Modify the first paragraph of 2.10.5.2 as follows:! Z& w; t7 d! o/ d2 [& t# f8 T
Insulation in separable thin sheet materials, and in two layers of non-separable thin sheet
* ~2 L% F! u3 ^; L6 b& j# kmaterials, is permitted, ….
$ b* I0 R# J- Y* \Add a new sub-clause 2.10.5.X or 2.10.5.Y.! W% z* u" _$ J& q! K3 {/ n; ]2 x( \
Test Method X+ N. s% `+ E. L% @+ s
2.10.5.X Non-separable thin sheet material
* u/ Q9 O' u$ E1 U8 g" FInsulation in three or more layers of non-separable thin-sheet materials is permitted for use within
" x5 G, }7 P' j; vthe equipment ENCLOSURE, and shall not be subject to handling or abrasion during servicing. It C! B8 g. F' ]8 V! h* F
shall have adequate mechanical strength.
# N3 E& {& S) u4 B8 G$ ]7 oNOTE - The purpose of the tests in 2.10.5.X is to reveal defects that are hidden in inner layers of insulation,1 n/ G# p* [+ e( n. u
so there is no test for insulation in two layers. For insulation in two layers of non-separable thin-sheet
7 N# ~; `: e# u( W1 i% ~materials, see 2.10.5.2
- }( c% x2 Z! T( Z- r2 u7 w* g% H5 @There is no requirement regarding distances through insulation, nor for all layers of insulation to be
. U2 g3 L7 ^/ |! T5 V% I, Aof the same material. `. F3 p7 h0 C! H9 ?
Compliance is checked by inspection and by the following test:
) Q9 G* ?0 V( D! K4 W1 pThree test samples of thin sheet material are used, each approximately 70 mm wide.
! u6 n, W7 e1 s1 S" z8 JOne sample is fixed to the mandrel of the test fixture as shown in figure 5X.7 G( @' I6 z0 j* t! L
A sheet of aluminium or copper foil, 0,035 mm ± 0,005 mm thick, approximately 30 mm wide and at
/ V7 g9 b f6 v+ |least 100 mm long, is fixed to the surface of the sample. The foil is positioned so that its edges are" @0 ^2 f+ i" H/ Z, T u
approximately 20 mm from the edges of the sample (see figure 5Xd) and so that when the
* i) u+ H" T: h8 }mandrel is in its final position, the foil overlaps the free end of the sample by at least 10 mm (see {, ?2 q; O, s0 ?2 W8 o; q
figure 5Xc). The foil is tightened by a pull of approximately 1 N, using an appropriate clamping& t( \+ e J) g% Z ? ^0 O; @
device.6 P2 F% O0 K5 M* r2 C3 \
A pull of 150 N is applied to the free end of the sample, using an appropriate clamping device. The/ ^1 z0 o( _) C$ W7 }" m* h
mandrel is twice rotated forwards and backwards by 230°, and then forwards to the final position.
6 @ S8 V4 k! u, H4 F+ AWhile the mandrel is in its final position, and within the 60 s following the final positioning, an/ c G7 [* I: J) Z/ j! ]8 m
electric strength test is applied between the mandrel and the metal foil in accordance with 5.2.2," s7 G' P% [+ m8 G ]: c5 @
using a test voltage of 1,5 times the value specified in table 5B.* d1 N2 Y" A$ |$ N) d! c* W$ r0 P
The test is repeated with the other two samples
3 d5 z9 I8 T' r8 ^; k" q' G& \3 |- zIf a sample breaks at the clamping device during rotation, the test is repeated on a fresh sample. If
" T6 N/ H& O1 \' r8 ~one or more samples breaks at any other place, the test has failed." c% W$ X) T6 ?( {! e8 x! N# A) l
............................
2 e4 R" J+ U* n% Z" Z- X8 u# bAdd new Figure 5X (adapted from Figure 6 of IEC 61558-1): _7 O# U! k! b4 }
Figure 5Xa is as figure 6a of IEC 61558-1, modified as follows:
$ X( M% ?! X* }* S: X! v4 GReplace "3 x R = 0,5 ± 0,02" by "R = 0,5 ± 0,02 (typ)"
$ s) I7 I: A( e! w" p* d2 x% h" pReplace "Material: steel nickel plated or brass" by "Material: metal"
; Q# z, ~' ]) }! ^$ O$ g5 SFigure 5Xd is the same as figure 6c of IEC 61558-1+ N, ?! q9 }1 @9 k6 b0 P/ Y
Test Method Y
& L1 ~2 i" B5 m: A- }4 e2.10.5.Y Non-separable thin sheet material8 K" {, _9 w3 D
Insulation in three or more layers of non-separable thin-sheet materials is permitted for use within
- E; m- Q J$ c7 n; zthe equipment ENCLOSURE, and shall not be subject to handling or abrasion during servicing. It
* _) H3 d% a4 w* L9 o- m' ^! ?shall have adequate mechanical strength.
$ G# D3 P2 h3 Q/ h0 Y; k6 @0 ]+ `NOTE - The purpose of the tests in 2.10.5.y is to reveal defects that are hidden in inner layers of insulation,
5 F/ V1 q) ~8 O6 R; Y' Dso there is no test for insulation in two layers. For insulation in two layers of non-separable thin-sheet
- M& ]# |9 G3 S; E! q" X9 Fmaterials, see 2.10.5.21 w7 X0 s- f% @8 B% @+ P" s
There is no requirement regarding distances through insulation, nor for all layers of insulation to be
, G. D0 u6 m* g3 n! R& uof the same material.& P+ e% ?1 H1 B8 q
Compliance is checked by inspection and by the following test:
( D4 c- m9 h1 t0 N- _5 ^2 VThree test samples of thin sheet material are used, each approximately 70 mm wide.1 ]+ K4 H$ L* W# @; `& D6 U: q
One sample is fixed to the mandrel of the test fixture as shown in figure 5Y.
0 P- c" N6 u% E3 _' V4 X! D3 X4 T: Z8 ]A pull of 150 N is applied to the free end of the sample, using an appropriate clamping device. The3 o3 Q' j* S' C3 m, y' q
mandrel is twice rotated forwards and backwards by 230°, and then forwards to the final position.
8 Q+ r5 h- t' }: t. @. D& X$ c5 \4 E- OA sheet of aluminium or copper foil, 0,035 mm ± 0,005 mm thick, approximately 30 mm wide and at
2 e8 I+ s4 r5 w9 }% D9 \# w. Nleast 200 mm long, is placed across is the surface of the sample, hanging down on each side of4 Z( }* R# U2 Z6 i
the mandrel. The foil is tightened by a pull of approximately 1 N at each end, using appropriate
3 o5 N' W G/ Z/ Eclamping devices.. The foil is positioned so that its edges are approximately 20 mm from the edges
. E" \& n" g( E S% u: f6 \of the sample (see figure 5Yd).
) V) s: H0 V% ?0 g3 u+ A3 p+ HWhile the mandrel is in its final position, and within the 60 s following the final positioning, an" R. A, Y: X3 S7 t$ _! _* B8 m4 i% i
electric strength test is applied between the mandrel and the metal foil in accordance with 5.2.2,
& ~2 {( n$ f$ q6 `using a test voltage of 1,5 times the value specified in table 5B.
. L2 s7 e0 w: @6 L2 JThe test is repeated with the other two samples
8 ^1 H$ m& S+ O: `If a sample breaks at the clamping device during rotation, the test is repeated on a fresh sample. If, U3 m3 _0 w* P- ?. p. B
one or more samples breaks at any other place, the test has failed.$ O. t1 W$ K' J4 V/ _5 q0 r% n
...............................2 o& V" h. j/ h& J; R
Add new Figure 5Y (adapted from Figure 6 of IEC 61558-1)
+ n) y, w* C+ z* [# U8 ~Figure 5Ya is as figure 6a of IEC 61558-1, modified as follows:
$ H# ?- K; j9 _! l EReplace "3xR = 0,5 ± 0,02" by "R = 0,5 ± 0,02 (typ)"* d4 {" M# a# N
Replace "Material : steel nickel plated or brass" by "Material: metal"
0 h$ E! _/ L3 \* B% _- xFigure 5Yd is the same as figure 6c of IEC 61558-12 l& _$ c a$ u9 w+ q4 A5 B
: b; C5 @+ P) V- p" U' M
5 e4 X! p. Y, Z: H% I: |0 q
0 T5 ]0 ?% c" h( H" N: Q/ S# O( Y/ X5 H4 W R2 Y
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发表于 2012-11-6 17:10
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