
HPT Cone Crusher
Cone crusher is used for crushing all kinds of ores and rocks with medium hardness or above-medium hardness in many industries, such as metallurgy, construction, road, chemical and silicate industries. It is very suitable for intermediate crushing and fine crushing of ores and rocks. There are by and large three types of cone crusher: cone crusher, hydraulic cone crusher and secondary cone crusher. When customers buy cone crusher, they can choose the suitable one taking into condition the ore or rock that the crusher will deal with. Rock cone crusher's features of large reduction ratio, high efficiency, low energy consumption and even granularity make it popular in the mining plant.
Details of this product
Hydraulic cone crusher with high efficiency is suitable for primary crushing of many kinds of minerals and rocks whose compression strength not higher than 360Mpa, such as ore, concrete, fireproof material, calamite, quartzite, corundum, perlite, ironstone, basalt etc. series hydraulic cone crusher is widely used in mining and construction, concrete factory, sandstone making industry.
- 1. Trustworthy insurance system: The spring insurance system applied in this machine can adjust the size of discharge opening to make sure that crusher works safely.
- 2. Adjustable crushing chamber: The shape of crushing chamber plays a very important role in the whole machine's performance. The Cone Crusher has four kinds of chamber shapes. Customers can choose the suitable one according to their specific demands.
- 3. Easy replacing of chamber: There is no need to fill the reverse side of crushing wall with anything when installing a new crushing wall. It is fixed by bolts, which not only decreases the difficulty of replacing, but also increases the speed.
- 4. Simple operation: The cone crusher employed high-pressure resistant displacement transducer. When the operator wants to adjust the size of the discharge opening, he only needs to press the button on the operation board. In addition, the operator can see the changing process of the size. So, it is extremely convenient and precise.
Technical Data
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 |