Standard Cone Crusher

E-catalog

1. Simplicity of design and rugged construction have made Minyu Cone Crushers ideal for crushing operations.
2. The spring-loaded release system allows any uncrushable material to pass through without causing any damage.
3. The lubrication unit is interlocked with the main motor for additional safety as a standard equipment.
4. A rib liner is provided inside the bottom section of the frame to help protect it from wear.
5.
There are generally four types of Standard Cone Crushers: the MCC standard or course type, the MCF fine or medium type, the MCS Short Head type & MCSS Super Fine type. All four types are designed for secondary or tertiary crushing purposes both in stationary and portable applications for highly abrasive materials.

As a professional cone crusher manufacturer and supplier, we can also offer customized crusher, cone crusher SP series, standard cone crusher, jaw crusher, impact crusher, crushing plant, portable crusher, vibrating screen, vibrating feeder...etc.

Usually, a cone crusher is installed in a crushing circuit as a secondary crusher. Pre-crushed material fed in via the top of the cone crusher flows over the mantle while the vertical cone crusher drive shaft rotates the mantle. The mantle performs eccentric movements under the concave (also called bowl liner), so squeezing & crushing the material between the cone crusher mantle and concave. In general, a cone crusher runs on V-belts driven by an electric motor or diesel engine. Extensive application of Cone crusher in aggregate and mineral processing industries.

Capacity based on continuous regulated feed of clean, dry limestone of normal hardness with a bulk density of 1.6 ton/m3. Capacity may vary +/- 25% with the size and nature of the rock and the working conditions of the plant.

All parameters are for reference only & subject to change without notice.


Type

Max Feed Opening

[mm]

Min Discharge Opening

[mm]

Rotation [RPM]

Motor Power

[KW]

Weight

KG

Capacity at closed side discharge opening size[mm] [TPH]
6 10 13 16 19 22 25 38 51 64
MCC600 95 10 630 37-45 5300 20 25 30 35 45 50 76
MCF600 72 6 630 37-45 5300 18 20 25 30 35 40 45 60
MCC1000 160 13 630 90-110 10800 80 100 135 150 175 235
MCF1000 115 10 630 90-110 10800 65 75 90 120 135 150
MCS1000 80 8 630 90-110 10510 52 62 72 78 115
MCSS1000 50 6 630 90-110 10510 50 55 65 70 102
MCC1150 180 13 610 110-132 13533 115 135 150 180 200 260
MCF1150 130 10 610 110-132 13533 100 110 120 135 165 175
MCS1150 90 10 610 110-132 13533 80 105 110 140
MCSS1150 60 6 610 110-132 13533 60 74 105 110 130
MCC1300 200 16 610 132-160 22300 150 180 200 230 310 390
MCF1300 150 13 610 132-160 22300 115 145 160 190 210
MCS1300 102 10 610 132-160 22300 90 115 140 160
MCSS1300 70 8 610 132-160 22300 88 110 135 155
MCC1370 215 19 610 185-220 26300 200 220 260 350 440
MCF1370 160 16 610 185-220 26300 155 180 200 220
MCS1370 115 13 610 185-220 26300 150 190 210 230
MCSS1370 76 8 610 185-220 26300 122 148 185 200
MCC1500 235 22 560 185-225 37750 265 310 420 525 580
MCF1500 175 19 560 185-225 37750 215 240 265 320
MCS1500 130 13 560 185-225 37750 180 210 235 255 275
MCSS1500 90 10 560 185-225 37750 148 178 200 220
MCC1680 267 22 560 250-300 44300 330 390 525 655 725
MCF1680 203 16 560 250-300 44300 230 270 300 330
MCS1680 140 13 560 250-300 44300 185 225 265 340
MCSS1680 95 10 560 250-300 44300 180 220 260 335




*Capacity based on continuous regulated feed of clean, dry limestone of normal hardness with a bulk density of 1.6 ton/m3. Capacity may vary with the size and nature of the rock and the working conditions of the plant.

Approximate General Dimensions  :


Type

"A"

"B"

"C"

"D"

"E"

"F"

600

345

1146

1105

1250

1750

1920

1000

395

1554

1546

1530

2200

2800

1150

522

1690

1670

1760

2415

3000

1300

609

1927

1920

2020

2800

3500

1370

612

2151

1965

2200

2830

3900

1500

730

2372

2216

2450

3170

4300

1680

860

2183

2107

2860

3550

4700



Size Part

Weight of main parts (Ton)

600

1000

1150

1300

1370

1500

1680

Lower body group +upper frame

2.25

5.3

7.3

11

13

17.6

21.75

Upper body group –upper frame

0.9

2.2

3.2

4.4

5.5

7.9

12.85

Eccentric seat group

0.25

0.5

0.65

1.1

1.25

2.1

2.3

Eccentric shaft group

0.48

1.3

2.1

3.1

3.75

5.9

7.4

Transmission shaft group

0.34

0.6

0.75

1

1

1.7

1.32


The parameters above are for reference only