SPIETH Locknuts Series - SOFT-Xsoftx.in/yahoo_site_admin/assets/docs/spieth... · the MSR series...
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~ -, ---- ~-- """ SPIETHLocknuts Series MSR Designation of a locknut with d1 = M 40 x 1.5: Locknut MSR 40 . 1.5 h f-- I The admissible operating loads specified in the table are guideline values calculated with a working error margin of 1.6 - under static stress relative to the minimum yield point, - underdynamicstressrelative to the minimum alternate strength. A <t "0 -5 d2 Subject to changes. Special versions: On request, on provision of an explanatory sketch.
Transcript of SPIETH Locknuts Series - SOFT-Xsoftx.in/yahoo_site_admin/assets/docs/spieth... · the MSR series...
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SPIETHLocknutsSeries MSR
Designation of a locknutwith d1 = M 40 x 1.5:Locknut MSR 40 . 1.5
h f--I The admissible operating loads
specified in the table are guidelinevalues calculated with a working errormargin of 1.6- under static stress relative to
the minimum yield point,- underdynamicstressrelative
to the minimum alternatestrength.
A
<t"0
-5
d2
Subject to changes.Special versions:On request, on provision of anexplanatory sketch.
SOFT-X.# 40, 80 Feet Road,S.B.M. Colony,Bangalore- 560 050. INDIA
Tel: +91-80-26697208Fax: +91-80-26697992
E-Mail: [email protected]
SPIETHLocknutsSeriesMSR
1)The number corresponds to that for clamping screws.
II
Code Dimensionsin mm Adm. axial Massmoment1) 1) fa operating of inertia
stressd2 d3 DIN MA8MSR d4 ds h I 912 A dyn. stat. J
h11 H11 mm kN kg cm240.1.5 58 5 66 1.25442.1.5 60 5 66 1.41245.1.5 68 6 84 2.49448.1.5 68 6 94 2.63150.1.5 70 94 2.90952 '1.5 72 96 3.20755.1.5 75 96 3.69058.1.5 82 6 161 5.81160 . 1.5 84 6 163 6.31762.1.5 86 6 186 7.33165.1.5 88 6 177 7.70868.1.5 95 8 223 11.04870.1.5 95 8 203 10.50072 . 1.5 98 8 170 11.82275.1.5 100 8 160 12.34680.2 110 8 258 22.03385.2 115 8 262 25.66090.2 120 265 29.61595.2 125 8 268 34.017
100.2 130 8 271 38.838105.2 135 274 44.097110.2 140 280 49.814115.2 145 329 64.164120.2 155 8 89.668125.2 160 8 412 99.722130.3 165 405 110.500140.3 180 1 476 160.977150.3 190 489 192.954160.3 205 301.314170.3 215 353.347180.3 230 648 477.504190.3 240 656 550.330200.3 245 578 544.727
I I I f
h
0,5
A
..,-"0 -0
<0"0
'""0
The locknuts of series MSAwith reduced contact surfaceand in some cases smalleroutside diameters relative to
I--I
SPIETHLocknutsSeries MSA
Designation of a locknutwith d1 = M 20x1:Locknut MSA 20 .1
The admissible operating loadsspecified in the table are guidelinevalues calculated with a working errormargin of 1.6- under static stress relative to
the minimum yield point,- under dynamic stress relative to
the minimum alternate strength.
./
d2
the MSR series are particulary suitedfor mounting angular ball bearingsand cylinder roller bearings of ISOdiameter series 9.
Special versions:On request, on provision of anexplanatory sketch.
1)The number corresponds to that for clamping screws.
Note:
IOther locknuts conforming to ourworks standard are available:
SN 04.03 - Series MSW for particu-larly high axial operating stress levels.
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Code Dimensions in mm Clamping screws Calculation Locknut- Adm. axial Mass moment1) 1) factor specific operating of inertia
allowance stressd2 d3 DIN MA Piece
dyn. I stat.MSA d4 ds ds h I 912 no. A 8 J
I---kN I kN kg cm2h11 H11 Nm mm N
20.1 35 4 27.5 3.2 31 17 5 M3" 2 5 1.281
=!=23 31 0.142'
25.1.5 40 4 32.5 3.2 36 19 6.5 M3 2 5 1.633 35 49 0.26530.1.5 45 5 37.5 3.2 41 19 6.5 M3 2 5 1.921 39 56 0.40035 . 1.5 53 5 45.5 4.3 48 22 7 M4 2.9 4 2.210
=!H 47
66 0.90440.1.5 58 5 50.5 4.3 54 22 7 M4 2.9 4 2.500 50 68 1.24245.1.5 64 6 54 4.3 59 23 7 M4 2.9 5 2.789 43 8 58 78 1.88850.1.5 69 6 59 4.3 64 24 8 M4 2.9 6 3.079 5148 63 85 2.56355.1.5 73 6 64 4.3 69 24 8 M4 2.9 6 3.369 5031 59 79 3.00160.1.5 78 6 69 4.3 74 24 8 M4 2.9 6 3.655 4914 61 81 3.75865.1.5 83 6 74 4.3 79 24 8 M4 2.9 7 3.948 5597 94 124 4.61170 . 1.5 93 8 83 5.3 88 27 9 M5 6 6 4.238 7620 136 178 9.09475.1.5 98 8 88 5.3 93 27 9 M5 6 6 4.525 7430 138 183 10.86680.2 103 8 93 5.3 98 28 10 M5 6 6 4.873 7239 148 196 13.39785.2 112 8 100 6.4 106 30 10 M6 10 6 5.168 9990 172 228 21.26090.2 117 8 105 6.4 111 30 10 10 6 5.453 9720 174 230 24.65095.2 122 8 110 6.4 116 30 10 10 6 5.744 9450 176 232 28.384
100.2 130 8 118 6.4 123 32 11 6 6.033
tr271 38.620
105.2 135 8 123 6.4 128 32 11 M6 . 6 6.321 207 274 43.852110.2 140 8 128
6Alli"11 M6 10 6 6.616 212 280 49.539
120.2 155 8 140 6.4 36 13 M6 10 6 7.193 308 408 89.148130.3 165 8 153 6.4 36 13 M6 10 6 7.895 306 405 109.890140.3 180 10 165 6.4 170 36 12 M6 10 8 8.475 359 476 160.150150.3 190 10 175 6.4 180 36 12 M6 10 8 9.050 8640 369 489 191.977160.3 205 10 185 8.4 195 40 14 M8 25 8 9.633 14520 417 552 300.080170.3 215 10 195 8.4 205 40 14 M8 25 8 10.213 13200 423 560 351.919180.3 230 10 210 8.4 220 40 14 M8 25 8 10.789
ii= 489 648 475.748190.3 240 10 224 8.4 230 40 14 M8 25 8 11.362 495 656 548.328200.3 245 10 229 8.4 235 40 14 M8 25 8 11.948 436 578 542.596
