PROPIEDADES / MATERIALES / CAPACIDADESproperties / MAteriALs / CApACitY
PROPIEDADES / MECHANICAL PROPERTIES OF LIFTING HOOKS
Strength Class 1)
Minimum requirements to the basic series of fine grain structural steel
as in DIN 17102 and DIN 17103
Minimum requirements for steel for quenching and tempering
as in DIN 17200
Upper yield strength ReH1 or 0,2% proof stress Rp0, 2
in N/mm2
Impact Energy Av, in J (ISO-V), as a test
temperature of +20C, /-20C with direction of
sampling 3)
Upper yield strength ReH1 or 0,2% proof stress Rp0, 2
in N/mm2
Impact Energy Av, in J (ISO-V), as a test
temperature of +20C, /-20C with direction of
sampling 3)
L Q L2) L
P 315
39 21
- - -
(S) 390 390 (35) 27
T 490 490 (35) 27
(V) - - 620 (30) 27
1) Use of strength classes given in brackets should be avoided where possible.2) The values given in brackets are information only, the test is to be carried out at -20C3) L stands for longitudinal direction , Q for traverse direction. Where the sheet is wider than 600mm the test piece shall be taken in the traverse direction
MATERIALES / STEEL TO BE USED FOR LIFTING HOOKS
Hook number Shank diameter 1)
d1, in mm
DIN 17 102 and DIN 17 103
DIN 17 102, DIN 17 103and DIN 17 200 2)
P S T V
4 48
StE 355 StE42034CrMo4 34CrMo4 34CrNiMo6
6 60
8 67
10 75
12 85
16 95
20 106
25 118
32 132
40 150
50 170
StE 420 StE50034CrMo4 34CrNiMo6 30CrNiMo8
63 190
80 212
100 236
125 265
160 300
200 335
250 375
1) See figures 1 and 2. The specified values have been taken from DIN 15401 Parts 1 and 2 and DIN 15402 Parts 1 and 2.
2) Where DIN 17200 steel is used, or where the diameter of the material is greater than 250mm (cf. Stahl-Eisen-Werkstoffblatt (Iron and steel materials sheet) 550), the following requirements shall also be met and be part of the contractual agreement. a) The total amount of aluminium in the steel shall be at least 2%, or it shall be verified in another way that the nitrogen in the steel is fixed. b) At a test temperature of -20C, the impact energy shall be at least 27J, as measured on an ISO-V notch specimen taken in the longitudinal direction.
3) For reasons of efficiency, it shall be permitted to use StE 355 steel in place of StE 285 steel.
4
DIN 15402-BDIN 15402DIN 15401
Strength class Drive Group Strength class
P 1Bm M31Am M4
2m M5
3m M6
4m M7
5m M8 P
S 1Bm M31Am M4
2m M5
3m M6
4m M7
5m M8 S
T 1Bm M31Am M4
2m M5
3m M6
4m M7 T
V 1Bm M31Am M4
2m M5
3m M6
4m M7 V
Hook number Lifting Capacity in kg Hook number
4 20.000 16.000 12.500 10.000 8.000 6.300 5.000 4.000 3.200 2.500 4
6 32.000 25.000 20.000 16.000 12.500 10.000 8.000 6.300 5.000 4.000 6
8 40.000 32.000 25.000 20.000 16.000 12.500 10.000 8.000 6.300 5.000 8
10 50.000 40.000 32.000 25.000 20.000 16.000 12.500 10.000 8.000 6.300 10
12 63.000 50.000 40.000 32.000 25.000 20.000 16.000 12.500 10.000 8.000 12
16 80.000 63.000 50.000 40.000 32.000 25.000 20.000 16.000 12.500 10.000 16
20 100.000 80.000 63.000 50.000 40.000 32.000 25.000 20.000 16.000 12.500 20
25 125.000 100.000 80.000 63.000 50.000 40.000 32.000 25.000 20.000 16.000 25
32 160.000 125.000 100.000 80.000 63.000 50.000 40.000 32.000 25.000 20.000 32
40 200.000 160.000 125.000 100.000 80.000 63.000 50.000 40.000 32.000 25.000 40
50 250.000 200.000 160.000 125.000 100.000 80.000 63.000 50.000 40.000 32.000 50
63 320.000 250.000 200.000 160.000 125.000 100.000 80.000 63.000 50.000 40.000 63
80 400.000 320.000 250.000 200.000 160.000 125.000 100.000 80.000 63.000 50.000 80
100 500.000 400.000 320.000 250.000 200.000 160.000 125.000 100.000 80.000 63.000 100
125 500.000 400.000 320.000 250.000 200.000 160.000 125.000 100.000 80.000 125
160 500.000 400.000 320.000 250.000 200.000 160.000 125.000 100.000 160
200 500.000 400.000 320.000 250.000 200.000 160.000 125.000 200
250 500.000 400.000 320.000 250.000 200.000 160.000 250
This table establishes a general claification of cranes basedd on the number of operating cycles to be carried out during the expected life of the crane and a load spectrum factor which represents a nominal state of loading. Classification considers only the conditions which are independent of the type of crane and the way it is driven.
CAPACIDADES / LIFTING CAPACITY
5
GAnChO SEnCILLO S/DIn 15401 siMpLe ForGeD HooK s/DiN 15401
Ganchos sencillos desde el n4 hasta el 250 S/DIN 15401. THG ofrece la posibilidad a sus clientes de entregar sus productos en bruto de forja, mecanizados S/DIN 15401 parte 2 o completamente mecanizadas S/DIN 15411.
Desde el gancho n4 hasta el n 16 THG for-ja sus ganchos con geometra RSN y desde el 20 hasta el 250 en geometra RFN.
Desde el gancho n 4 hasta el n 50 son forjados en matriz cerrada por lo que su longitud L1 no es modificable.
Desde el n63 hasta el 160 en matriz abier-ta por lo que la variacin de la cota L1 es posible a un bajo coste.
Los ganchos n250 se realizan por medio de forja libre.
Simple forged hooks from n 4 to 250 S/DIN 15401. THG offers its customers the possibil-ity of delivering their products rough forged, machined S/DIN 15401 part 2 or fully ma-chined S/DIN 15411.
From forged hook number 4 to 16, THG forg-es its hooks with RSN geometry, and from number 20 to 250 with RFN geometry.
Forged hooks 4 to 50 are produced using closed die forging, therefore their L1 length is not adaptable.
From 63 to 160 with open die forging, there-fore varying the L1 level is possible at a low cost.
Forged hooks number 250 are made using free forging.
DIMENSIONES / DIMENSIONS
HOOK N TYPE a1 a2 a3 b1 b2 d1 e1 e2 e3 f1 f2 f3 g1 h1 h2 l1 r1 r2 r3 r4 r5 r6 r7 r8 r9
weight in kg
4 RSN 71 56 80 63 53 48 172 190 148 45 16 80 67 285 8 12 71 150 150 103 90 160 8,8
6 RSN 90 71 101 80 67 60 218 240 185 57 18 100 85 380 10 16 90 190 190 131 112 200 17,1
8 RSN 100 80 113 90 75 67 242 268 210 64 23 112 95 418 11 18 100 212 212 146 125 224 24
10 RSN 112 90 127 100 85 75 256 286 221 46 26 23 125 106 452 12 20 65 165 236 163 140 12 250 34
12 RSN 125 100 143 112 95 85 292 316 252 53 34 28 140 118 650 14 22 70 185 265 182 160 16 280 47
16 RSN 140 112 160 125 106 95 325 357 280 58 35 33 160 132 730 16 25 80 210 300 204 180 16 320 66
20 RFN 160 125 180 140 118 106 370 405 330 68 45 33 180 150 800 18 28 90 240 335 232 200 20 360 112
25 RFN 180 140 202 160 132 118 415 455 360 74 45 38 200 170 895 20 32 100 270 375 262 224 20 400 160
32 RFN 200 160 225 180 150 132 465 510 400 80 45 38 224 190 970 22 36 115 300 425 292 250 20 448 220
40 RFN 224 180 252 200 170 150 517 567 447 93 55 42 250 212 1040 25 40 130 335 475 326 280 25 500 310
50 RFN 250 200 285 224 190 170 575 635 485 100 55 42 280 236 1200 28 45 150 370 530 363 315 25 560 430
63 RFN 280 224 320 250 212 190 655 710 550 108 60 45 315 265 1320 32 50 160 420 600 408 355 25 630 600
80 RFN 315 250 358 280 236 212 727 802 598 113 60 45 355 300 1470 36 56 180 470 670 460 400 25 710 860
100 RFN 355 280 402 315 265 236 827 902 688 130 70 50 400 335 1615 40 63 200 530 750 516 450 30 800 1220
125 RFN 400 315 450 355 300 265 920 1020 750 138 70 50 450 375 1790 45 71 230 600 850 579 500 30 900 1740
160 RFN 450 355 505 400 335 300 1035 1145 825 147 70 55 500 425 1990 50 80 250 675 950 654 560 30 1000 2480
200 RFN 500 400 565 450 375 335 1150 1275 900 154 70 55 560 475 2248 56 90 285 750 1060 729 630 30 1120 3420
250 RFN 560 450 635 500 425 375 1280 1430 980 164 70 60 630 530 2505 63 100 320 840 1180 815 710 30 1260 4800
Desviaciones admisibles / Permissible deviations
a1 a2 a3 b1 b2 d1 e3 h1 h2 l1 f1 f2 f3 g1
4 +4/0 +2/0
6 and 8 +5/0 +2/0
10 to 16 +6/0 +3/0
20 to 32 +12/0 +/-10 +16/0 +12/0 +/-10 +20/0 +5/0
40 to 63 +16/0 +/-12 +20/0 +16/0 +/-12 +24/0 +6/0
80 to 125 +20/0 +/-16 +25/0 +20/0 +/-16 +32/0 +8/0
160 to 250 +25/0 +/-20 +32/0 +25/0 +/-20 +40/0 +10/0
1
60
a1
l1
f1
e3
a3
r2
a2
d1
3
3
2 2
1 1
b2r2
h2
b2
h2 r2r2
r2h2
h2
SECTION RSN 3 SECTION RFN 3
b1
b1
r1
r1
h1r9
r1 h1
b1 r1r9
SECTION RSN 2 SECTION RFN 2
r2
g1
f3
12 +- 33r8
g
SECTION RFN 1SECTION RSN 1
SECTION RSN 1 SECTION RFN 1
60
a1l1
f1e3
a3
r2
a2
d1
3
3
2 2
1 1
b2r2
h2
b2
h2 r2r2
r2h2
h2
SECTION RSN 3 SECTION RFN 3
b1
b1
r1
r1
h1r9
r1 h1
b1 r1r9
SECTION RSN 2 SECTION RFN 2
r2
g1
f3
12 +- 33r8
g
SECTION RFN 1SECTION RSN 1
SECTION RSN 2 SECTION RFN 2
60
a1
l1
f1
e3
a3
r2
a2
d1
3
3
2 2
1 1
b2r2
h2
b2
h2 r2r2
r2h2
h2
SECTION RSN 3 SECTION RFN 3
b1
b1
r1
r1
h1r9
r1 h1
b1 r1r9
SECTION RSN 2 SECTION RFN 2
r2
g1
f3
12 +- 33r8
gSECTION RFN 1SECTION RSN 1
SECTION RSN 3 SECTION RFN 3
60
a1
l1
f1
e3
a3
r2
a2
d1
3
3
2 2
1 1
b2r2
h2
b2
h2 r2r2
r2h2
h2
SECTION RSN 3 SECTION RFN 3
b1
b1
r1
r1
h1r9
r1 h1
b1 r1r9
SECTION RSN 2 SECTION RFN 2
r2
g1
f3
12 +- 33r8
g
SECTION RFN 1SECTION RSN 1
6
a1
l1
45
30
h
a2
f1
d1
a3
r3
f2
e
2
2
1 1I
h b1
h
r1
r2
SECTION RFN 2SECTION RFN/RSN 1 SECTION RFN 2
r1b1
b1
h
h
r2R5g
f3
r4
r4
DETAIL I
Ganchos dobles desde el n 16 hasta el 250 S/DIN 15402. THG ofrece la posibilidad a sus clientes de entregar sus productos en bruto de forja, mecanizados S/DIN 15402 parte 2 o completamente mecanizadas S/DIN 15411.
Los ganchos n 16 son forjados con geo-metra RSN y desde el 20 hasta el 250 en geometra RFN.
Desde el gancho n 16 hasta el n 32 son forjados en matriz cerrada por lo que su longitud L1 no es modificable.
Desde el n 40 hasta el 160 en matriz abierta por lo que la variacin de la cota L1 es posible a un bajo coste.
Los ganchos n 250 se realizan por medio de forja libre.
Forged duplex hooks from number 16 to 250 S/DIN 15402. THG offers its customers the possibility of delivering their products rough forged, machined S/DIN 15402 part 2 or fully machined S/DIN 15411.
Forged hooks number 16 are forged with RSN geometry. From number 20 to 250 with RFN geometry.
Forged hooks 16 to 32 are produced using closed die forging, therefore their L1 length is not adaptable.
From 40 to 160 with open die forging, there-fore varying the L1 level is possible at a low cost.
Forged hooks number 250 are made using free forging.
HOOK N TYPE a1 a2 a3 b1 d1 e f1 f2 f3 g h l1 r1 r2 r3 r4 r5weight in kg
16 RSN 112 90 146 95 95 237 471 69 36 28 118 580 14 11 132 16 4,0 69,7
20 RFN 125 100 163 106 106 265 531 75 36 33 132 750 16 12,5 150 16 4,0 99,5
25 RFN 140 112 182 118 118 315 598 86 45 33 150 915 18 14 170 20 5,0 138
32 RFN 160 125 205 132 132 335 672 94 45 38 170 990 20 16 190 20 5,0 197
40 RFN 180 140 230 150 150 375 754 104 45 38 190 1085 22 18 212 20 5,0 286
50 RFN 200 160 260 170 170 420 842 120 56 42 212 1165 25 20 236 25 6,0 394
63 RFN 224 180 292 190 190 460 944 131 56 42 236 1290 28 22 265 25 6,0 547
80 RFN 250 200 325 212 212 515 1062 144 56 45 265 1435 32 25 300 25 6,0 759
100 RFN 280 224 364 236 236 575 1186 157 56 45 300 1575 36 28 335 25 6,0 1060
125 RFN 315 250 408 265 265 645 1330 178 68 50 335 1750 40 32 375 30 8,0 1491
160 RFN 355 280 458 300 300 725 1505 198 68 50 375 1945 45 36 425 30 8,0 2115
200 RFN 400 315 515 335 335 800 1685 218 68 55 425 2198 50 40 475 30 8,0 3015
250 RFN 450 355 580 375 375 875 1885 240 68 55 475 2450 56 45 530 30 8,0 4268
a1 a2 a3 b1 d1 f1/2 e g f3 h l1
16 +6/0 +4/0
20 to 32 +12/0 +/-10 +16/0 +12/0 +5/0 +20/0
40 to 63 +16/0 +/-12 +20/0 +16/0 +6/0 +24/0
80 to 125 +20/0 +/-16 +25/0 +20/0 +8/0 +32/0
160 to 250 +25/0 +/-20 +32/0 +25/0 +10/0 +40/0
Desviaciones admisibles / Permissible deviations
GAnChOS DObLE S/ DIn 15402 ForGeD DUpLeX HooK s/DiN 15402
DIMENSIONES / DIMENSIONS
2
DETAIL 1 SECTION RFN/RSN 1 SECTION RFN 2 SECTION RSN 2
a1
l1
45
30
h
a2
f1
d1
a3
r3
f2
e
2
2
1 1I
h b1
h
r1
r2
SECTION RFN 2SECTION RFN/RSN 1 SECTION RFN 2
r1b1
b1
h
h
r2R5g
f3
r4
r4
DETAIL I
7
DIMENSIONES / DIMENSIONS
HOOK N a1 a2 a3 b=d1d2
H15 e1 e2 g f1 f2 f3 h l1 r1 r2 r3 r4 r5 r6weight in kg
20 125 100 163 106 96 45 265 33 531 75 36 190 850 16 16 12.5 150 118 132 115
25 140 112 182 118 106 50 315 33 598 86 45 212 915 20 18 14 170 132 150 160
32 160 125 205 132 116 60 335 38 672 94 45 236 990 20 20 16 190 150 170 229
40 180 140 230 150 131 68 375 38 754 104 45 265 1085 20 22 18 212 170 190 330
50 200 160 260 170 146 76 420 42 842 120 56 300 1165 25 25 20 236 190 212 458
63 224 180 292 190 168 83 460 42 944 131 56 335 1290 25 28 22 265 212 236 638
80 250 200 325 212 188 90 515 45 1062 144 56 375 1435 25 32 25 300 236 265 892
100 280 224 364 236 208 105 575 45 1186 157 56 425 1575 25 36 28 335 265 300 1248
125 315 250 408 265 235 118 645 50 1330 178 68 475 1750 30 40 32 375 300 335 1757
160 355 280 458 300 260 128 725 50 1505 198 68 530 1945 30 45 36 425 335 375 2500
200 400 315 515 335 282 150 800 55 1685 218 68 600 2160 30 50 40 475 375 425 3560
250 450 355 580 375 312 170 875 55 1885 240 68 670 2410 30 56 45 530 425 475 5033
a1 a2 a3 b d1 f1/2 e g f3 h l1
20 to 32 +12/0 +/-10 +16/0 +12/0 +5/0 +20/0
40 to 63 +16/0 +/-12 +20/0 +16/0 +6/0 +24/0
80 to 125 +20/0 +/-16 +25/0 +20/0 +8/0 +32/0
160 to 250 +25/0 +/-20 +32/0 +25/0 +10/0 +40/0
Desviaciones admisibles / Permissible deviations
GAnChOS DObLES fORMA b S/DIn 15402-b ForGeD DUpLeX HooK B s/DiN 15402-B
Ganchos dobles desde el n 20 hasta el 250 S/DIN 15402. THG ofrece la posibilidad a sus clientes de entregar sus productos en bruto de forja, mecanizados S/DIN 15402-B parte 2 o completamente mecanizadas S/DIN 15411.
Desde el gancho n 20 hasta el n 32 son forjados en matriz cerrada por lo que su longitud L1 no es modificable.
Desde el n 40 hasta el 160 en matriz abierta por lo que la variacin de la cota L1 es posible a un bajo coste.
Los ganchos n 250 se realizan por medio de forja libre.
Forged duplex hooks from number 20 to 250 S/DIN 15402. THG offers its customers the possibility of delivering their products rough forged, machined S/DIN 15402-B part 2 or fully machined S/DIN 15411.
Forged hooks 20 to 32 are produced using closed die forging, therefore their L1 length is not adaptable.
From 40 to 160 with open die forging, there-fore varying the L1 level is possible at a low cost.
Forged hooks number 250 are made using free forging
3
r5
45
30
a1 a3
a2
d1
r3
l1e2
f2
h
f1
A
A
B B
C
C
1
b
SECTION A-A
12+-33
r7
f3g
SECTION B-B
r2
r6
r6
r2
d2
SECTION C-C
r1
DETAIL 1SECTION A-A SECTION B-B SECTION C-C DETAIL 1
8
Top Related