Max. Feed in size |
≤ 300 MM |
Capacity |
10 – 1000 TPH |
Application |
Symons Cone Crusher is used in metallurgy, mining, cement, chemical, and ceramics and other industrial sectors, as well as highway construction, water conservancy engineering, construction crushed stone, sand making etc. |
Scope of Application |
Symons Cone Crusher is suitable for crushing all kinds of ores and rocks of medium and above medium hardness, such as river pebbles, dolomite, granite, rhyolite, diabase, basalt etc. |
Machine Introduction |
Symons Cone Crusher takes the lamination crushing principle and the concept of crushing more and grinding less. Meanwhile, Symons Cone Crusher integrates high swing frequency, optimized cavity type and rational stroke. Excellent performance makes it popular among customers.
Due to the reasonable selection of parts and structural design, long service life, uniform particle size of crushed finished products, and reduced circulating load, the Symons Cone Crusher adopts a hydraulic cavity cleaning system in medium and large size crushers. Downtime is reduced, and there are many cavity types of crushers of each specification. Users can choose different cavity types according to different inquiry. Cone crusher is divided into standard type and short head type. In general, feed particle size for the standard type is large, the discharge particle size is relatively coarse. The short head type of the crushing cone is steeper, the feed particle size is small, which is conducive to the production of fine-grained materials. Therefore, the standard type is generally used for coarse and medium crushing. Short head type is better for medium and fine crushing. |
Working Principle |
During working, the rotation of the motor rotates around a fixed point through the pulley or linkage shaft, the drive shaft of the cone crusher and the cone part of the cone crusher under the forcing of the eccentric sleeve. Therefore, the mantle sometimes approaches and sometimes leaves the surface of concave, so that the ore is continuously impacted, squeezed and bent in the crushing cavity to achieve the ore crushing. |
Performance
Reliable Performance - Classical Structural Design
The reason why Symons Cone Crusher is so popular at home and abroad is its reliability under various working conditions. Symons Cone Crusher reserves classical structures, which guarantees the reliability of Symons Cone Crusher to the greatest extent.
Multiple Cavity Types Suitable for Different Working Conditions
Symons Cone Crusher has three types, i.e. coarse type middle type and fine type. Each type of Symons cone crusher is equipped with multiple cavities, so that all Symons cone crushers are suitable for the coarse, middle and fine crushing of materials of various rigidities. A large number of practical applications show that Symons Cone Crusher realizes excellent performance when being used in intermediate crushing operations.
The Principle of Lamination Crushing Brings Better Discharging Size
Symons Cone Crusher adopts the principle of lamination crushing. Not only can the crushing efficiency improve, but also the abrasion of vulnerable parts reduces greatly. Meanwhile, the content of qualified fine particles is high enough. Finished products can better serve as high-quality aggregates.
Digitalized Processing, Higher Precision
There are tens of lines of numerical controlling machine tools. Operations such as steel plates' cutting, bending, planing, milling and paint spraying are all controlled numerically. The machining precision is high, especially for the core parts.
Technical Parameters
Model |
Cavity Type |
Feed in mouth size |
Close side MM |
Open side MM |
Φ900 (3‘) |
Fine type |
83 |
102 |
Coarse type |
159 |
175 |
Φ1200(4’) |
Fine type |
127 |
131 |
Middle type |
156 |
156 |
Coarse type |
178 |
191 |
Φ1295(4 1/4’) |
Fine type |
109 |
137 |
Middle type |
188 |
210 |
Coarse type |
216 |
241 |
Φ1650(5’) |
Fine type |
188 |
209 |
Middle type |
213 |
241 |
Coarse type |
241 |
268 |
Φ2100(7’) |
Fine type |
253 |
278 |
Middle type |
303 |
334 |
Coarse type |
334 |
369 |
Model |
Cavity Type |
Output size MM |
Capacity TPH |
Φ900 (3‘) |
Fine type |
9-22 |
45-91 |
Coarse type |
13-38 |
59-163 |
Φ1200(4’) |
Fine type |
9-31 |
63-188 |
Middle type |
13-38 |
100-200 |
Coarse type |
19-51 |
141-308 |
Φ1295(4 1/4’) |
Fine type |
13-31 |
109-181 |
Middle type |
16-38 |
132-253 |
Coarse type |
19-51 |
172-349 |
Φ1650(5’) |
Fine type |
16-38 |
181-327 |
Middle type |
22-51 |
258-417 |
Coarse type |
25-64 |
299-635 |
Φ2100(7’) |
Fine type |
19-38 |
381-726 |
Middle type |
25-51 |
608-998 |
Coarse type |
31-64 |
789-1270 |
Model |
Cavity Type |
Main shaft speed R/MIN |
Power KW |
Φ900 (3‘) |
Fine type |
580 |
75 |
Coarse type |
580 |
75 |
Φ1200(4’) |
Fine type |
485 |
110 |
Middle type |
485 |
110 |
Coarse type |
485 |
110 |
Φ1295(4 1/4’) |
Fine type |
485 |
185 |
Middle type |
485 |
185 |
Coarse type |
485 |
185 |
Φ1650(5’) |
Fine type |
485 |
240 |
Middle type |
485 |
240 |
Coarse type |
485 |
240 |
Φ2100(7’) |
Fine type |
435 |
315 |
Middle type |
435 |
315 |
Coarse type |
435 |
315 |
Model |
Cavity Type |
Weight T |
Overall size MM |
Φ900 (3‘) |
Fine type |
15 |
2821*1880*2164 |
Coarse type |
15 |
2821*1880*2164 |
Φ1200(4’) |
Fine type |
20 |
2821*1974*2651 |
Middle type |
20 |
2821*1974*2651 |
Coarse type |
20 |
2821*1974*2651 |
Φ1295(4 1/4’) |
Fine type |
27 |
2800*2342*2668 |
Middle type |
27 |
2800*2342*2668 |
Coarse type |
27 |
2800*2342*2668 |
Φ1650(5’) |
Fine type |
55 |
3911*2870*3771 |
Middle type |
55 |
3911*2870*3771 |
Coarse type |
55 |
3911*2870*3771 |
Φ2100(7’) |
Fine type |
110 |
4613*3251*4732 |
Middle type |
110 |
4613*3251*4732 |
Coarse type |
110 |
4613*3251*4732 |