Australia 150 t/h iron ore sand Solutions and Process

Capacity: 150 t / h
Material: iron (iron content 40%)
Feeding Requirements: ≤ 630mm
Discharge Requirements: ≤ 5mm
Major equipment Model:
Vibrating Feeder: ZSW-490 × 110
Jaw Crusher: PE-750 × 1060
Jaw Crusher: PEX-300 × 1300
Vibrating Feeder: GZT1003
Hydraulic Cone Crusher: SMH-250M
Sand Making Machine: VI-6000
Circular Vibrating Screen: YK-2460
Circular Vibrating Screen: 3YK-2460

Material properties:

Iron ore is an important raw material of steel producers, natural minerals (iron ore) after crushing, grinding, magnetic separation, flotation, elected gradually re-election of iron and other procedures. In theory, any compound containing iron ore or iron ore can be called; However, in industrial or commercial point of view, different iron ore and manganese ore, iron ore not only to iron-containing ingredients, and must there are of value to the job. Are based on the state of iron compounds exist in nature, especially in the state of iron oxide present in an amount of impurities, but more particularly and more. Such as hematite, magnetite, siderite, limonite, etc.

Solution process:

First stage: iron ore through vibrating feeder evenly to the jaw crusher (early break) for primary crushing. Crushed material through the belt conveyor to an intermediate silo.
Second stage: the material through the electromagnetic vibrating feeder hopper transported to vibrating screen. Vibrating screen size of the material according to the material into four :0-5 ,5-30,30-60, greater than 60mm. 0-5mm is finished material.
The third stage: 5-30mm material transported by a belt conveyor to the impact of breaking silos. Electromagnetic vibrating feeder to feed material through impact break, after treatment of the material from the belt conveyor to vibrating screen. The finished material is less than 5mm, more than 5mm and back impact break of the material hopper
The fourth stage :30-60mm of material through the belt conveyor to the cone crusher hopper. By electromagnetic vibrating feeder feeding, feeding material evenly composite cone crusher. After crushing the material transported by the belt conveyor vibrating sieve back.

The advantages of our solutions?

Iron ore production line consists of vibrating feeder, jaw crusher, vibrating screen, sand making machine and hydraulic cone crusher components. After breaking into the middle of the crude material directly into the hopper sieve after sieving according to the size of the material into various crushers, feed reasonable assurance of the various thin broken yield, to further improve the production line output.

HP Series Multi Cylinder Hydraulic Cone Crusher
Model & Capacity
Model Cavity Feed Opening(mm) Minimum Discharge Opening(mm) Capacity
(t/h)
Nominal Installed Power(kw) Max. Installed Power(kw) Overall Dimensions (mm)
HP100 C1 Extra Coarse 140 19 75-140 90 90 1705×1510×1583
C2 Coarse 100 13 60-110 90 90
M Medium 70 9 52-100 90 90
F1 Fine 50 9 50-95 90 90
F2 Extra Fine 20 6 45-90 90 90
HP200 C2 Coarse 185 19 145-250 160 160 2135×1750×1927
M Medium 125 16 135-235 160 160
F1 Fine 95 13 115-220 160 160
F2 Extra Fine 75 10 90-190 160 160
HP300 C1 Extra Coarse 230 25 220-440 220 250 2725×2110×2871
C2 Coarse 210 19 190-380 220 250
M Medium 150 16 175-320 220 250
F1 Fine 105 13 145-280 220 250
F2 Extra Fine 80 10 110-240 220 250
HP400 C1 Extra Coarse 295 30 300-630 315 315 2775×2370×2295
C2 Coarse 251 25 285-560 315 315
M Medium 196 20 250-490 315 315
F1 Fine 110 13 180-345 315 315
F2 Extra Fine 90 10 135-320 315 315
HP500 C1 Extra Coarse 330 38 425-790 400 400 2800×3480×4050
C2 Coarse 290 30 370-700 400 400
M Medium 210 22 330-605 400 400
F1 Fine 135 16 270-535 400 400
F2 Extra Fine 95 13 220-430 400 400
Structurer Diagram
Indicative Gradation Curves
DP Series Single Cylinder Hydraulic Cone Crusher
Model & Capacity

Coarse Cavity

Model Cavity Max.Feeding Size(mm) The output corresponding to discharge opening(CSS)
19mm 22mm 25mm 29mm 32mm 35mm 38mm 41mm 44mm 48mm 51mm 54mm 60mm 64mm 70mm 76mm
DP100s M 170 85-90 105-145 125-175 145-200 165-215
DP430s EC 360 126 138-173 147-230 156-293 165-310 174-327 183-344 196-306 205-256
C 300 108 116-145 127-199 135-254 144-270 152-285 161-301 196-264 108
MC 235 91 95-123 106-166 116-218 124-232 131-246 139-261 147-275 154-241 165
DP440s EC 450 267 282-353 298-446 313-563 334-601 350-524 365-456
C 400 225 239-299 254-381 269-484 284-511 298-448 318-398 333
MC 300 195 214-267 228-342 242-435 256-461 270-486 284-426 303-378 317
DP660s EC 560 349 368-460 392-588 410-718 428-856 465-529 489-978 525-1050 562-983
C 500 318 336-420 353-618 376-753 394-788 411-823 446-892 469-822 504-631

Fine Cavity

Model Cavity Max.Feeding Size(mm) The output corresponding to discharge opening(CSS)
6mm 8mm 10mm 13mm 16mm 19mm 22mm 25mm 32mm 38mm 44mm 51mm 57mm 64mm 71mm
DP100 M 105 55-60 60-85 65-95 70-100 75-90
MF 85 45-50 50-70 55-80 60-85 65-90 65-80
EF 32 40-55 40-60 45-70 55-75 60-75 65 86-171 91-182 104-208 115-208
DP430 EC 185 69-108 75-150 80-161 81-162 86-713 98-197 109-150
C 145 66-131 71-142 76-152 77-173 82-184 93-145
MC 115 57 62-140 67-151 72-162 86-162 91-154 104
M 90 64-84 69-131 75-142 80-152 87-114 92
MF 75 61 65-106 70-115 76-124 81-126 72-95 77
F 50 48-78 51-83 54-88 59-96 63-103 68-105
EF 35 70-90, 80% of which is less than 5mm-5.6mm
DP440 EC 215 114-200 122-276 131-294 139-313 159-357 175-395 192-384
C 175 101 109-218 117-292 125-312 133-332 151-378 167-335 183-229
MC 140 97-122 105-262 113-282 120-301 128-320 146-328 161-242
M 110 117-187 126-278 136-298 145-318 154-339 175-281 194
MF 85 114 124-227 134-245 144-263 153-281 163-299 186-248
F 70 90-135 96-176 104-191 112-206 120-221 129-236 137-251 156-208
EF 38 100-125, 80% of which are less than 6 mm-7.5 mm
DP660 EC 270 177 190-338 203-436 216-464 246-547 272-605 298-662 328-511
CX 235 174-194 187-374 200-488 212-519 242-592 268-654 293-521 323-359
C 215 171-190 184-367 196-480 209-510 238-582 263-643 288-512 317-353
MC 175 162-253 174-426 186-455 198-484 226-552 249-499 273-364
M 135 197-295 211-440 226-470 240-500 274-502 302-403
MF 115 192 207-369 222-396 237-423 252-450 287-451 318-363
F 90 195-304 210-328 225-352 241-276 256-400 292-401 323
EF 65 211-293 227-316 244-298 261-290
DP870 EC 300 448-588 477-849 544-968 601-1070 658-1172 725-1291 782-1393 849-1512 906-1331
C 240 406 433-636 461-893 525-1018 581-1125 636-1232 700-1357 756-1464 820-1461 876-1286
MC 195 380-440 406-723 432-837 492-954 544-1055 596-1155 657-1272 708-1373 769-1370 821-1206
M 155 400-563 428-786 455-836 519-953 573-1054 628-1154 692-1271 746-1372 810-1248 865-1098
MF 100 379-424 407-716 434-765 462-814 527-928 852-942 638-789 702
F 90 357-395 385-656 414-704 442-752 470-800 535-912 592-857 649-718
EF 80 280-405 304-517 328-558 352-598 376-639 400-680 455-775 503-758 551-669
Structurer Diagram
Indicative Gradation Curves