
SHC Sequence Substantial-efficiency One Cylinder CZPT Cone Crusher Device
Description:
The SHC collection Single Cylinder CZPT Cone Crusher is a single of the leading adcanced cone cursher in CZPT, which is develped and produced by our company. The machine is one particular variety of high-class solution mixed with mechanical engineering, electrical technological innovation, hydraulic technological innovation and superior crushing technology. The machine adopts large strengh casting-steel frame, alloy forging primary shaft and high presion arc-formed spiral gear driving composition, merged with multi-chambers selection and automation control technique, which fulfills the efficiency and positive aspects. It can be extensively utilised in secondary and wonderful crushing operate for all kinds of difficult resources and rocks to fulfill customers’ various requirements for crushing.
Attributes:
High Efficiency
Combined with optimum crushing chamber, sensible eccentricity, optimal swing frequency and laminating crushing theory, this machine has a big via ability, high productivity, great products form and reduced power consumption.
CZPT
Automation management system can achieve the overloading security, iron-passing safety and perform of consistent-chamber without having influence of liner-sporting, can also continually keep track of these situations such as oil temperature, oil movement, oil pressure motor load and discharge opening size, and so on., which guarantee the device function stably.
High LOADING Capacity
Optimization design of robust body building, two-ends structure(simple assist beam) principal shaft, unique hydrodynamic lubrication style of copper bush, wise and reputable overload security system, which make sure the equipment have prolonged-time period and steady operating underneath incredibly negative situations this sort of as hard rock crushing.
Vast APPLICABILITY
There are two kinds of cone crusher: regular kind and quick head type. There are a number of varieties of chamber can be selected for each sort. Different chambers can be transformed by ECC. The altering of products’ classifying can be attained by adjusting the driving shaft velocity to maximize the equipment’s price in use.
Minimal Running Sound AND Low VIBRATION
The driving construction of high precision arc-condition spiral gear has benefits of lower working noise, large driving ratio and long toughness. Reduced vibration alone and adaptability supporting of the metal composition guarantee bare minimum vibration which is caused by transmission from machine to foundation and low basis cost.
Minimal Installation Cost
SHC200(s) and SHC300(s) cone crusher’s sophisticated compound cup-type piston design has gain of lower installation top and the integral steel base body make sure easy set up, quick time-expense and minimum installation price.
Reduced Operating Price
The liner use ratio and durability can be improved by specific crushing chamber, liner framework and liner substance. The common optimistic stress dustproof method assures pure lubrication oil all the time, which extends the services lifestyle and reduced the expense of labor since of considerably less recurrent lubrication oil alter. Most of the areas can be disassembled in best and facet which is protected, handy and effective.
Technical Requirements:
SECONDARY CRUSHING
| Design | Eccentricity Worth (mm) |
Max. Power (kw) |
Throughput Ability(t/h) | ||||||
| CSS (mm) |
25 | thirty | 35 | 40 | forty five | 50 | |||
| SHC100S | twenty | 90 | a hundred and fifteen-a hundred twenty five | a hundred and forty-a hundred and fifty | one hundred fifty five-a hundred seventy five | a hundred sixty five-195 | a hundred and eighty-210 | ||
| 25 | 180-a hundred ninety | 195-215 | 205-225 | ||||||
| SHC200S | 25 | 160 | 165-215 | 185-235 | 205-255 | 225-275 | |||
| 32 | 225-275 | 265-315 | 275-345 | ||||||
| SHC300S | 32 | 250 | 350-390 | 370-410 | 390-430 | ||||
| 40 | 440-490 | 470-520 | |||||||
| SHC400S | 36 | 280 | 400-450 | 440-490 | 480-520 | five hundred-540 | 550-600 | ||
| 42 | 520-570 | 550-630 | 620-670 | 650-seven hundred | |||||
Fine CRUSHING
| Design | Eccentricity Price (mm) |
Max. Electrical power (kw) |
Throughput Ability(t/h) | ||||||||
| CSS (mm) |
8 | ten | fifteen | twenty | 25 | thirty | 35 | 40 | |||
| SHC100 | 20 | 90 | forty five-fifty | 50-fifty five | sixty five-75 | ninety-a hundred | |||||
| 25 | fifty-60 | 70-85 | a hundred-a hundred and fifteen | ||||||||
| SHC200 | twenty five | one hundred sixty | 85-one hundred and five | one hundred and five-a hundred twenty five | one hundred twenty five-one hundred fifty | 155-one hundred seventy five | 180-205 | ||||
| 32 | a hundred thirty five-one hundred fifty five | one hundred sixty five-185 | 185-215 | ||||||||
| SHC300 | 32 | 250 | one hundred-120 | one hundred ten-a hundred and forty | one hundred fifty five-185 | 185-215 | 220-250 | 255-285 | 290-320 | ||
| 40 | 140-a hundred and sixty | 195-225 | 235-265 | 280-310 | 315-345 | ||||||
| SHC400 | 36 | 280 | a hundred and fifty-a hundred and eighty | 200-240 | 260-285 | 290-320 | 330-365 | 370-400 | 410-440 | ||
| forty two | 260-290 | 320-350 | 355-385 | 390-420 | 430-460 | 470-five hundred | |||||
| Design | Max. Feed Opening (mm) |
Max. Electrical power (kw) |
Throughput Capacity(t/h) | ||||||
| CSS (mm) |
thirteen | sixteen | 19 | 22 | 25 | 32 | |||
| SHC500 | 275 | 315 |
|
172 | 185-333 | 198-431 | 211-460 | 241-542 | |
| 215 | one hundred sixty five-185 | 180-362 | 190-475 | 204-505 | 237-580 | ||||
| a hundred seventy five | 157-248 | a hundred and seventy-421 | 181-450 | 193-480 | 220-550 | ||||
| a hundred thirty five | 192-290 | 206-435 | 221-465 | 235-495 | 270-497 | ||||
| one hundred fifteen | 188 | 202-364 | 217-391 | 232-418 | 247-445 | 282-446 | |||
| 85 | 190-300 | 205-323 | 220-347 | 236-371 | 251-395 | 287-396 | |||
| sixty five | 206-288 | 222-311 | 240-293 | 256-290 | |||||
| SHC800 | 300 |
560
|
443-584 | 472-844 | 540-963 | ||||
| 240 | four hundred | 428-631 | 456-888 | 520-1013 | |||||
| 195 | 375-435 | 401-718 | 427-832 | 487-950 | |||||
| a hundred and fifty five | 400-563 | 423-780 | 455-836 | 514-948 | |||||
| a hundred | 374-420 | 402-711 | 429-760 | 457-809 | 522-923 | ||||
| 90 | 352-390 | 380-650 | 410-seven hundred | 437-747 | 465-795 | 530-907 | |||
| eighty | 300-511 | 323-553 | 347-593 | 371-635 | 395-675 | 450-770 | |||
| SHC1000 | 370 |
750
|
390-454 | 444-1304 | |||||
| 330 | 392 | 417-770 | 477-1400 | ||||||
| 300 | 337-508 | 360-847 | 384-1227 | 438-1400 | |||||
| 230 | 262-306 | 282-665 | 302-946 | 321-1101 | 367-1256 | ||||
| a hundred and sixty | 200 | 215-509 | 232-685 | 248-916 | 264-975 | 300-1112 | |||
| one hundred twenty | 243-284 | 263-665 | 282-833 | 302-890 | 321-947 | 367-1080 | |||
| a hundred | 208-418 | 223-661 | 240-710 | 247-758 | 273-807 | 312-921 | |||
| 85 | 196-580 | 211-626 | 227-673 | 238-715 | 260-765 | 296-873 | |||
| seventy five | 188-560 | 204-603 | 220-648 | 234-692 | 250-737 | 285-841 | |||
| Model | Max. Feed Opening (mm) |
Max. Energy (kw) |
Throughput Potential(t/h) | ||||||
| CSS (mm) |
38 | 44 | fifty one | 57 | 64 | 70 | |||
| SHC500 | 275 | 315 |
|
267-600 | 293-657 | 328-511 | |||
| 215 | 258-638 | 283-507 | 317-353 | ||||||
| 175 | 244-494 | 268-360 | |||||||
| one hundred thirty five | 297-398 | ||||||||
| 115 | 314-358 | ||||||||
| eighty five | 318 | ||||||||
| sixty five | |||||||||
| SHC800 | 300 |
560
|
596-1065 | 653-1167 | 720-1286 | 777-1388 | 844-1506 | 901-1326 | |
| 240 | 576-1120 | 631-1227 | 695-1352 | 751-1460 | 815-1456 | 871-1281 | |||
| 195 | 540-1050 | 591-1150 | 652-1267 | 703-1368 | 764-1365 | 816-1201 | |||
| a hundred and fifty five | 568-1050 | 623-1150 | 687-1266 | 741-1367 | 805-1243 | 860-1093 | |||
| 100 | 847-937 | 633-784 | 697 | ||||||
| ninety | 587-852 | 644-713 | |||||||
| eighty | 498-728 | 546-664 | |||||||
| SHC1000 | 370 |
750
|
490-1441 | 538-1580 | 593-1740 | 641-1878 | 696-2038 | 743-2176 | |
| 330 | 527-1547 | 578-1695 | 637-1868 | 688-2015 | 747-2188 | 798-2137 | |||
| 300 | 485-1547 | 531-1695 | 586~13 0571 88828 1385811777868 | 632-2015 | 687-2000 | 798-1734 | |||
| 230 | 406-1390 | 445-1521 | 491-1676 | 530-1810 | 575-1795 | 715-1560 | |||
| one hundred sixty | 334-1230 | 366-1347 | 404-1485 | 436-1602 | 593-1391 | 633-1165 | |||
| 120 | 406-1160 | 445-1046 | 491-822 | 530-620 | |||||
| 100 | 346-990 | 380-891 | 418-700 | 452-528 | |||||
| 85 | 328-965 | 360-1058 | 396-1165 | 428-1005 | 465-857 | 497-664 | |||
| 75 | 316-850 | 346-756 | 382-575 | 412 | |||||
Observe: CSS signifies discharge opening dimensions. The previously mentioned capability is based mostly on rock with bulk density one.6t/mthree. This potential will be impacted by variables such as picked eccentricity, crushing ratio, materials hardness, feed particle dimension composition, moisture and slit content material and so forth. For a lot more thorough data make sure you make contact with us.
Construction:
Discharging Granularity Curves:
Notice: The figures on the curves are for the discharging opening size and evaluation of square hole.
Crusher Cavity Choice:
| Product | Cavity Variety | Feed Opening (mm) |
Max. Feed Size (mm) |
Min. Discharge Opening (mm) |
| SHC100S | EC | 250 | two hundred | twenty five |
| SHC200S | EC | 330 | 264 | thirty |
| SHC300S | EC | 380 | 304 | 35 |
| SHC400S | EC | 450 | 360 | 30 |
|
SHC100
|
EF | 40 | 35 | 8 |
| F | 50 | 40 | eight | |
| MF | 100 | eighty | thirteen | |
| M | one hundred thirty | a hundred | 16 | |
| EC | one hundred fifty | a hundred and twenty | 18 | |
| SHC200 |
F | 70 | sixty | ten |
| M | a hundred thirty | 100 | 16 | |
| EC | 210 | a hundred sixty five | twenty five | |
|
SHC300
|
F | sixty | 50 | eight |
| MF | 100 | 80 | 13 | |
| M | one hundred thirty | one hundred | 16 | |
| C | a hundred and eighty | a hundred and forty | twenty five | |
| EC | 260 | 210 | thirty | |
| SHC400
|
MF | 100 | eighty | thirteen |
| M | 130 | 100 | 16 | |
| C | 180 | one hundred forty | 25 | |
| EC | 260 | 210 | 30 |
Observe: EF = Further Wonderful, F = Fantastic, MF = Medium Good, M = Medium, C = Coarse, EC = Added Coarse
Proportions:
Programs:
Workshop:
