SBM : HCS90 Cone Rock Crusher
Compared with spring cone crusher, CS cone crusher and hydraulic cone crusher, this HCS90 cone stone crusher is the most advanced and popular crushing equipment. HCS90 cone rock crushers are widely applied in cement making industry, building, sand making, metallurgical industry, etc. This series of cone rock crusher is suitable for both metallic minerals and non-metallic minerals, such as iron ore, nonferrous metal ore, granite, limestone, quartzite, sandstone, pebble, etc.
Compared with spring cone crusher, CS cone crusher and hydraulic cone crusher, this HCS90 cone stone crusher is the most advanced and popular crushing equipment. HCS90 cone rock crushers are widely applied in cement making industry, building, sand making, metallurgical industry, etc. This series of cone rock crusher is suitable for both metallic minerals and non-metallic minerals, such as iron ore, nonferrous metal ore, granite, limestone, quartzite, sandstone, pebble, etc.
HCS90 cone stone crusher structure
SBM HCS90 cone stone crusher machine consists of feeder hopper, top frame, fix cone, pedestal, discharging hopper, transmission shaft, triangle strip, motor, etc. Its auxiliary equipments include hydraulic lubrication station and electric control box, etc.
SBM HCS90 cone stone crusher machine consists of feeder hopper, top frame, fix cone, pedestal, discharging hopper, transmission shaft, triangle strip, motor, etc. Its auxiliary equipments include hydraulic lubrication station and electric control box, etc.
SBM best cone crusher features and benefits
Having the function of primary and secondary crushing, this cone rock crusher machine is designed consummately which combined the crush stroke , the crush speed and the feature of crush cavity. So that under the same moving identical cone big end diameter condition ,the output is higher than the old-fashioned damaged spring cone output about 35% ~60%.
This cone stone crusher machine adopts the proper crush cavity shape and crash principle of lamination , thereby increases the cube proportion of finished product obviously, decreases the needle schistose stone, and the grade is more homogeneous.
Having the function of primary and secondary crushing, this cone rock crusher machine is designed consummately which combined the crush stroke , the crush speed and the feature of crush cavity. So that under the same moving identical cone big end diameter condition ,the output is higher than the old-fashioned damaged spring cone output about 35% ~60%.
This cone stone crusher machine adopts the proper crush cavity shape and crash principle of lamination , thereby increases the cube proportion of finished product obviously, decreases the needle schistose stone, and the grade is more homogeneous.
Working principle of HCS90 cone rock crusher
The motor drives the eccentric shaft bushing through triangle strip, transmission shaft and transmission gear. The fix cone makes circle movement at the force of eccentric shaft bushing, and close to the mantle from time to time. Raw materials are crushed during the process and are later discharged at the bottom.
The motor drives the eccentric shaft bushing through triangle strip, transmission shaft and transmission gear. The fix cone makes circle movement at the force of eccentric shaft bushing, and close to the mantle from time to time. Raw materials are crushed during the process and are later discharged at the bottom.
HCS90 cone stone cruser technical data
| Feeding widden(mm) | 135(100, 80, 50)four types |
| Max feeding widden(mm) | 110(80, 65, 40) |
| Discharging range(mm) | 6-28 |
| Power(Kw) | 75~110 |
| Max permitting dimension(mm) | <40 |
| Overall dimension length×widden×hight(mm) | 2581×1550×3276 |
| weight(t) | 9.5 |
HCS90 cone crusher lubricate pressure system parameter
| Oil motor power(Kw) | 1.5 |
| Oil motor pressure(MPa) | 16 |
| Oil box cubage(L) | 100 |
HCS90 cone crusher hydraulic pressure system parameter
| Oil motor power(Kw) | 2.2 |
| Oil motor pressure(MPa) | 1.0 |
| Oil box cubage(L) | 800 |
HCS90 Cone Crusher crushing cavity
| Model | Discharge(mm) | Production(t/h) |
| A | 16 | 65-75 |
| 18 | 70-85 | |
| 22 | 85-105 | |
| 28 | 110-130 | |
| B | 11 | 45-55 |
| 13 | 55-65 | |
| 16 | 65-75 | |
| 20 | 80-100 | |
| C | 9 | 25-35 |
| 11 | 45-50 | |
| 13 | 50-60 | |
| 16 | 60-70 | |
| D | 6 | 20-25 |
| 7 | 25-30 | |
| 8 | 30-35 | |
| 10 | 35-45 |
