High Crushing Capacity
The use of high capacity crushing chamber coupled with the effect of combined crushing has resulted in a remarkable improvement in crushing capacity.
High Set Under Ratio and good product shape
The bisector line of the crushing chamber is almost vertical at the inlet. Its angle of inclination changes gradually until it reaches a specific angle at the outlet. Accordingly, the density of the feed material is increased as it proceeds from the inlet towards the outlet. This causes inter-particle crushing due to high density in the crushing chamber. As a result, product with roundish cubic shape can be produced, with thigh set under ratio.
Lower Energy Cost
The ZI CONE performs combined crushing by bending, shearing and compressing actions of the grooved crushing plates compared to conventional crushing by compression only. This leads to more effective use of the installed power which in turn leads to considerable energy saving.
Easy adjustment of discharge setting
Hydraulic system provides easy discharge setting even during operation by just pushing buttons at the control panel. Also the adjustment can be remotely controlled from the control center.
Easy and Safety Maintenance
The inside of crusher can be easily checked through the large inspection windows located at the bottom frame. Special torch ring enable the easy and quick replacement of the liners in a short time. And the head nut for mantle can be used repeatedly.
New Automation System
New Automatic Operation System (AOS3) with hydraulic system of ZI-Cone crusher enable safety and easy operation to meet with the various crushing process requirement.
- Protect the crusher from overload and easy discharge of tramp iron and uncrushed material
- Withdraw the maximum performance of the crusher constantly under the fluctuating feed conditions
- Visualize the crusher operating and mechanical conditions including liner wear and assist maintenance planning



MODEL Max. Motor Output
Throughput Capacity (mt/h)
Gap Setting (C.S.S.) (mm)
10 13 15 18 20 25 30 35 40 45 50
ZI-1000 150 97-141 114-181 123-198 141-221 148-240 181-275 203-322 224-358 2732-392
ZI-1200 220 140-200 1164-259 176-283 203-316 214-343 261-394 293-460 322-512 398-560
ZI-1350 280 176-218 208-302 226-358 249-339 267-433 313-497 366-581 403-647 485-708
ZI-1500 315 261-319 283-411 316-470 333-500 398-586 460-671 512-762 554-834 671-905
ZI-1650 400 321-388 348-504 388-609 408-654 571-824 635-956 695-1090 746-1182 891-1272
ZI-1800 450 369-459 400-582 447-710 470-763 550-893 657-1003 731-1116 800-1272 858-1380 1040-1485
ZI-2100 630 515-629 559-809 623-981 656-1053 768-1233 916-1384 1020-1540 1116-1756 1198-1905 1437-2050
  • Note1. Capacity is based on the conditions that bulk density is 1.6 t/m3 (with feed size less than discharge setting not included) and that stone having compressive strength approximately ranging from 1000 kg/cm2 to 1250 kg/cm2 is fed into the crusher evenly and continuously.
  • Note2. Maximum feed size is for the case where pit gravel is primarily or secondarily crushed. In case of cobble gravel, use the said thickness values as the standard.
  • Note3. Actual capacity may vary due to characteristics and conditions of feed material (such as compressive strength, size distribution, etc.).
  • Note4. The contents in this page shall be subject to alternation without prior notice due to improvement, modification, etc.