Composite Cone Crusher is used for processing gravels, ores, all kinds of ore rock with hardness of medium or above, mostly is used for secondary crushing. It is widely used in the industries of metallurgy, building material, road construction, chemical engineering and silicate. Cone crusher has the feature of high crushing ratio, high efficiency, high capacity, low operating cost, easy adjustment and economical operation.
The compound spring cone crusher capacity mine crushing plant is used as a secondary crushing process, which can crush river rock, granite, basalt and iron stone. This machine has the advantages of safety, convenient maintenance, etc., and is equipped with an overload protection device to make the production stable and stable.
When the Composite cone crusher is working, the engine rotates around a fixed point through the belt wheel or the coupling, meanwhile the transmission shaft and the conical part of the cone crusher are taken under the force of the eccentric bushing, which makes the crushing wall close to the pierced mortar wall at intervals. Then, the ores will be impacted, squeezed and bent constantly in the crushing chamber, resulting in the crushing of the ores.
1. The Composite cone crusher has the characteristics of large crushing force, high efficiency, strong crushing capacity, low operating cost and long service life. Easy to operate and economical.
2. The crushed material has a uniform particle size, which reduces the cycle load.
3. Large and medium-sized crushers adopt hydraulic cavity cleaning system to reduce downtime.
4. Composite Cone crushers with different chambers can be provided to meet customer requirements.
5. The grease seal can effectively avoid the blockage of the water supply system and the drainage system, and the mixing of water and oil.
6. The spring safety device is used as an overload protection device to make foreign objects and iron pieces pass through the crushing cavity without endangering the machine.
Model | Diameter of crushing cone (mm) |
Max.feeding size (mm) |
Width of discharge opening (mm) |
Processing capacity (t/h) |
Motor power (kw) |
Swing frequency of main shaft | Total weight (t) |
Dimensions(L×W×H) (mm) |
|
PYB
|
600
|
600
|
65
|
12-25
|
40
|
30
|
356
|
5
|
2234×1370×1675
|
PYD
|
35
|
3-13
|
12-23
|
5.5
|
2234×1370×1675
|
||||
PYB
|
900
|
900
|
115
|
15-50
|
50-90
|
55
|
333
|
11.2
|
2692×1640×2350
|
PYZ
|
60
|
5-20
|
20-65
|
11.2
|
2692×1640×2350
|
||||
PYD
|
50
|
3-13
|
15-50
|
11.3
|
2692×1640×2350
|
||||
PYB
|
1200
|
1200
|
145
|
20-50
|
110-168
|
110
|
300
|
24.7
|
2790×1878×2844
|
PYZ
|
100
|
8-25
|
42-135
|
25
|
2790×1878×2844
|
||||
PYD
|
50
|
3-15
|
18-105
|
25.3
|
2790×1878×2844
|
||||
PYB
|
1750
|
1750
|
215
|
25-50
|
280-480
|
160
|
245
|
50.3
|
3910×2894×3809
|
PYZ
|
185
|
10-30
|
115-320
|
50.3
|
3910×2894×3809
|
||||
PYD
|
85
|
5-13
|
75-230
|
50.2
|
3910×2894×3809
|
||||
PYB
|
2200
|
2200
|
300
|
30-60
|
59-1000
|
280-260
|
220
|
80
|
4622×3302×4470
|
PYZ
|
230
|
10-30
|
200-580
|
80
|
4622×3302×4470
|
||||
PYD
|
100
|
5-15
|
120-340
|
81.4
|
4622×3302×4470
|
Structural composition and common problems of a 2.8-meter-diameter garbage incineration rotary kiln
2024.04.22How to effectively reduce the energy consumption of ball mill steel balls
2024.04.22Solution to ball mill bearing failure
2024.04.19What factors should be considered to improve the grinding process design of overflow ball mill?
2024.04.19