email [email protected] | +86-21-58386189

Cone Crusher

Cone crusher is generally used as a secondary crusher in a crushing circuit. In China, Cone crusher can be divided into three forms:Single cylinder hydraulic cone crusher, Multi-cylinder hydraulic cone crusher and Spring cone crusher. Different forms crushing equipments have different advantages and disadvantages, On the premise of innovative technologies, with the continuous development of mining technology in China, Every form crusher playing an important role, has become the indispensable equipment in mining industry.

Cone Crusher

At present, our company has developed five models series cone crusher which be called HST, HPT, HPC, CS and PY series cone crusher. The following describes the differences between these five models of the machine.

HST series single cylinder hydraulic cone crusher (HST Cone Crusher) uses of hydraulic adjustment and hydraulic protection, omitting the adjustment ring, support ring components and the spring member spring type is complex, the equipment structure is simplified, the cone crusher machine weight lighter. And the whole row ore mouth only operated control valve hydraulic system can complete the adjustment procedures, such as encountered iron clamped, simply by cone upper and lower lifting can be ruled out control operated hydraulic valve operation, reducing labor intensity and difficulty of technology.

HPT series multi-cylinder hydraulic cone crusher (HPT Cone Crusher) has the same structure and the same crushing theory as traditional HPC series multi-cylinder hydraulic cone crusher (HPC Cone Crusher), They all through using the special lamination principle design of crushing cavity intergranular, replace the traditional single particle crushing principle, realizing the selective crushing of material, broken granularity even, But HPT series cone crusher strengthens the performance of driving device and sealing service.

CS series spring cone crusher (CS Cone Crusher) and PY series spring cone crusher (PY Cone Crusher) are one of the most widely used , because of its stable performance, especially the overload protective device for spring insurance system and make the iron through the crushing chamber without damage to equipment, sealing the unique system of powder and oil isolation, which can guarantee the equipment can work reliably.

Cone Crusher Working Principle

Cone crusher overload protection machine has spring safety device and hydraulic safety device, therefore adjusted according to the discharge port and overload when the insurance in different ways, the working principle of spring cone crusher and hydraulic cone crusher is not the same.

Hydraulic cone crusher working priciple

Hydraulic cone crusher in work is to drive shaft and cone part in the axis line of the eccentric shaft do under periodic swing motion driven by the rotating motor pulley or coupling. In the material from the feed inlet into the crushing chamber by mutual impact due to the eccentric shaft and the rolling mortar wall extrusion, grinding, rubbing resulting in broken effect. Hydraulic insurance system in the machine had iron fault or stuffy car phenomenon by ah will support sleeve and fixed cone top out of fault, in the play the role of insurance is very good and can greatly reduce the repair rate and improve production efficiency.

Spring cone crusher working priciple

When spring cone crusher, by motor through V-belt, big pulley, drive shaft, a small bevel gear, bevel gear drive large eccentric rotation, broken cone axis moving force in the eccentric sleeve done under rotating swing, making broken wall near the surface and sometimes they sometimes leave the rolling acetabular wall surface, so that the material in the ring fixed cone and fixed cone crushing cavity composed constantly under attack, squeezing and bending and breaking. After several extrusion, after the impact and bending, crushing the material to the required size, the lower part of the discharge.

Model Movable Cone Diameter(mm) Chamber Style Max Feeding (mm) Discharge Opening (mm) Capacity (t/h) Power (kw) Machine Size (mm)
HST100 790 EC 135 10-32 46-128 90 1550×1575×1965
C 90 10-25 43-118
M 65 8-16 36-76
MF 50 6-13 29-68
F 35 4-10 27-57
EF 28 6 30-40
HST160 956 EC 180 13-38 69-215 160 1875×1920×2400
C 145 13-32 65-197
MC 115 10-25 60-180
M 90 10-22 60-160
MF 75 8-19 61-125
F 50 6-19 45-105
EF 35 6 70-90
HST250 1150 EC 215 16-44 110-380 250 2100×2320×2780
C 175 13-38 100-385
MC 140 13-32 95-325
M 110 13-25 115-335
MF 85 10-22 90-280
F 70 8-19 90-235
EF 38 8 100-125
HST315 1408 EC 275 16-44 177-660 315 2380×2735×3265
CX 245 16-38 170-650
C 215 16-38 170-640
MC 175 16-32 160-552
M 135 16-32 195-500
MF 115 13-32 190-450
F 85 13-25 195-400
EF 65 13-22 210-300
Model Cavity Maximum Feeding Size(mm) Minimum Discharging Size(mm) Capacity(t/h) Maximum Installed Power(kw)
HPT100 C1(Extra Coarse) 140 19 50-140 90
C2(Coarse) 100 13
M(Medium) 70 9
F1(Fine) 50 9
F2(Extra Fine) 20 6
HPT200 C2(Coarse) 185 19 90-250 160
M(Medium) 125 16
F1(Fine) 95 13
F2(Extra Fine) 75 10
HPT300 C1(Extra Coarse) 230 25 110-440 250
C2(Coarse) 210 19
M(Medium) 150 16
F1(Fine) 105 13
F2(Extra Fine) 80 10
HPT400 C1(Extra Coarse) 295 30 135-630 315
C2(Coarse) 251 25
M(Medium) 196 20
F1(Fine) 110 13
F2(Extra Fine) 90 10
HPT500 C1(Extra Coarse) 330 38 220-790 400
C2(Coarse) 290 30
M(Medium) 210 22
F1(Fine) 135 16
F2(Extra Fine) 95 13
HPT800 C1(Extra Coarse) 350 38 310-1200 630
C2(Coarse) 299 32
M(Medium) 265 25
F1(Fine) 220 16
F2(Extra Fine) 150 13
Model Movable Cone Diameter (mm) Chamber Style Min. Discharging (mm) Max. Feeding (mm) Capacity (t/h) Power (kw) Motor Model Machine Size (mm)
HPC220 1220 Coarse 19 210 185-300 220 Y2-355M1-4 2726×1950×2182
Fine 13 105 150-210
HPC400 1570 Coarse 30 290 400-500 400 Y3-4002-6 3447×2830×2977
Fine 16 135 260-400
Model Movable Cone Diametermm (inch) Chamber Style Opening Side Closed Side Discharging Opening (mm) REV (r/min) Power (kw) Motor Model Capacity (t/h) Machine Size (mm)
Max.Feeding (mm)
CSB75 900 (3′) medium 83 102 9-22 580 6-75 Y315S-6/75 45-91 2821×1880 ×2164
coarse 159 175 13-38 59-163
CSD75 914 (3′) fine 13 41 3-13 580 6-75 Y315S-6/75 27-90 2821×1880 ×2410
medium 33 60 3-16 27-100
coarse 51 76 6-19 65-140
CSB160 1295 (4 1/4′) fine 109 137 13-31 485 6-185 Y355M2-6/185 109-181 2800×2342 ×2668
medium 188 210 16-31 132-253
coarse 216 241 19-51 172-349
CSD160 1295 (4 1/4′) fine 29 64 3-16 485 6-160 Y355M1-6/160 36-163 2800×2342 ×2668
medium 54 89 6-16 82-163
coarse 70 105 10-25 109-227
CSB240 1650 (5 1/2′) fine 188 209 16-38 485 6-240   181-327 3911×2870 ×3771
medium 213 241 22-51   258-417
coarse 241 268 25-64   299-635
CSD240 1650 (5 1/2′) fine 35 70 5-13 485 6-240   90-209 3917×2870 ×3771
medium 54 89 6-19   136-281
coarse 98 133 10-25   190-336
CSB400 2134 (7′) fine 253 278 19-38 435 6-400   381-726 5200×4300 ×4700
medium 303 334 25-51   608-998
coarse 334 369 31-64   870-1400
CSD400 2134 (7′) fine 51 105 5-16 435 6-400   190-408 5200×4300 ×4700
medium 95 133 10-19   354-508
coarse 127 178 13-25   454-599
Model Diameter of Bottom End of Conical Crushing Head(mm) max feeding size adjustment range of discharge opening capacity(t/h) power Rev. of Eccentric shaft Overall dimension(mm)
PYB600 600 75 12-25 40 30 356 2234×1370×1675
PYZ600 600 35 3-13 5-23 30 356 2234×137×1675
PYB900 900 115 15-50 50-90 55 333 2692×164×2350
PYZ900 900 60 5-20 20-65 55 333 2692×164×2350
PYD900 900 50 3-13 15-50 55 333 2692×164×2350
PYB1200 1200 145 20-50 110-168 110 300 2790×1878×2844
PYZ1200 1200 100 8-25 42-135 110 300 2790×1878×2844
PYD1200 1200 50 3-15 18-105 110 300 2790×1878×2844
PYB1750 1750 215 25-50 280-480 160 245 3910×2894×3809
PYZ1750 1750 185 10-30 115-320 160 245 3910×2894×3809
PYD1750 1750 85 5-13 75-230 160 245 3910×2894×3809
PYB2200 2200 300 30-60 490-750 260-280 220 4622×3302×4470
PYZ2200 2200 230 10-30 200-580 260-280 220 4622×3302×4470
PYD2200 2200 100 5-15 120-340 260-280 220 4622×3302×4470

We Will Respond To Your Inquiry At Once: