
SHC Sequence High-functionality Solitary Cylinder CZPT Cone Crusher Equipment
Description:
The SHC collection One Cylinder CZPT Cone Crusher is 1 of the top adcanced cone cursher in CZPT, which is develped and produced by our firm. The device is one type of substantial-course merchandise mixed with mechanical technological innovation, electrical technological innovation, hydraulic technological innovation and sophisticated crushing technologies. The equipment adopts higher strengh casting-metal body, alloy forging main shaft and high presion arc-formed spiral equipment driving construction, combined with multi-chambers choice and automation control system, which fulfills the overall performance and advantages. It can be commonly used in secondary and fantastic crushing function for all kinds of challenging components and rocks to satisfy customers’ numerous demands for crushing.
Attributes:
Substantial Efficiency
Merged with optimum crushing chamber, affordable eccentricity, optimum swing frequency and laminating crushing theory, this device has a massive through capacity, higher productiveness, excellent products form and lower strength usage.
CZPT
Automation handle method can accomplish the overloading security, iron-passing safety and function of consistent-chamber without having effect of liner-putting on, can also constantly keep track of these circumstances this sort of as oil temperature, oil movement, oil force motor load and discharge opening measurement, and so on., which ensure the equipment function stably.
Large LOADING Capability
Optimization design of strong body design, two-finishes framework(easy support beam) major shaft, exclusive hydrodynamic lubrication style of copper bush, smart and reliable overload defense system, which ensure the machine have prolonged-term and secure doing work beneath incredibly bad circumstances such as tough rock crushing.
Vast APPLICABILITY
There are two varieties of cone crusher: standard sort and short head variety. There are several kinds of chamber can be picked for every type. Various chambers can be transformed by ECC. The modifying of products’ classifying can be accomplished by modifying the driving shaft pace to improve the equipment’s worth in use.
Low Managing Sound AND Reduced VIBRATION
The driving structure of substantial precision arc-condition spiral equipment has benefits of lower running sound, large driving ratio and extended toughness. Low vibration by itself and overall flexibility supporting of the steel composition make sure least vibration which is brought on by transmission from equipment to basis and lower basis value.
Low Installation Cost
SHC200(s) and SHC300(s) cone crusher’s innovative compound cup-sort piston design and style has edge of lower installation height and the integral metal base frame ensure simple installation, brief time-cost and least set up value.
Lower Operating Value
The liner use ratio and durability can be enhanced by unique crushing chamber, liner composition and liner material. The standard good stress dustproof program guarantees pure lubrication oil all the time, which extends the support life and low the cost of labor since of significantly less frequent lubrication oil change. Most of the components can be disassembled in leading and side which is protected, handy and efficient.
Specialized Specifications:
SECONDARY CRUSHING
| Product | Eccentricity Value (mm) |
Max. Electricity (kw) |
Throughput Capacity(t/h) | ||||||
| CSS (mm) |
twenty five | thirty | 35 | forty | forty five | 50 | |||
| SHC100S | twenty | ninety | a hundred and fifteen-one hundred twenty five | a hundred and forty-150 | a hundred and fifty five-a hundred seventy five | one hundred sixty five-195 | one hundred eighty-210 | ||
| twenty five | a hundred and eighty-a hundred ninety | 195-215 | 205-225 | ||||||
| SHC200S | twenty five | a hundred and sixty | one hundred sixty five-215 | 185-235 | 205-255 | 225-275 | |||
| 32 | 225-275 | 265-315 | 275-345 | ||||||
| SHC300S | 32 | 250 | 350-390 | 370-410 | 390-430 | ||||
| forty | 440-490 | 470-520 | |||||||
| SHC400S | 36 | 280 | 400-450 | 440-490 | 480-520 | 500-540 | 550-600 | ||
| forty two | 520-570 | 550-630 | 620-670 | 650-seven-hundred | |||||
Fine CRUSHING
| Product | Eccentricity Price (mm) |
Max. Electricity (kw) |
Throughput Capability(t/h) | ||||||||
| CSS (mm) |
eight | 10 | 15 | twenty | 25 | thirty | 35 | forty | |||
| SHC100 | twenty | ninety | 45-50 | 50-fifty five | 65-seventy five | ninety-one hundred | |||||
| 25 | fifty-60 | 70-85 | one hundred-one hundred fifteen | ||||||||
| SHC200 | twenty five | a hundred and sixty | 85-a hundred and five | 105-a hundred twenty five | one hundred twenty five-one hundred fifty | one hundred fifty five-one hundred seventy five | 180-205 | ||||
| 32 | one hundred thirty five-a hundred and fifty five | 165-185 | 185-215 | ||||||||
| SHC300 | 32 | 250 | one hundred-a hundred and twenty | 110-one hundred forty | one hundred fifty five-185 | 185-215 | 220-250 | 255-285 | 290-320 | ||
| forty | 140-a hundred and sixty | 195-225 | 235-265 | 280-310 | 315-345 | ||||||
| SHC400 | 36 | 280 | one hundred fifty-180 | 200-240 | 260-285 | 290-320 | 330-365 | 370-four hundred | 410-440 | ||
| 42 | 260-290 | 320-350 | 355-385 | 390-420 | 430-460 | 470-500 | |||||
| Design | Max. Feed Opening (mm) |
Max. Electrical power (kw) |
Throughput Capability(t/h) | ||||||
| CSS (mm) |
13 | 16 | 19 | 22 | 25 | 32 | |||
| SHC500 | 275 | 315 |
|
172 | 185-333 | 198-431 | 211-460 | 241-542 | |
| 215 | one hundred sixty five-185 | 180-362 | a hundred ninety-475 | 204-505 | 237-580 | ||||
| one hundred seventy five | 157-248 | one hundred seventy-421 | 181-450 | 193-480 | 220-550 | ||||
| a hundred thirty five | 192-290 | 206-435 | 221-465 | 235-495 | 270-497 | ||||
| a hundred and fifteen | 188 | 202-364 | 217-391 | 232-418 | 247-445 | 282-446 | |||
| eighty five | 190-300 | 205-323 | 220-347 | 236-371 | 251-395 | 287-396 | |||
| sixty five | 206-288 | 222-311 | 240-293 | 256-290 | |||||
| SHC800 | three hundred |
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 | |||||
| one hundred fifty five | four hundred-563 | 423-780 | 455-836 | 514-948 | |||||
| a hundred | 374-420 | 402-711 | 429-760 | 457-809 | 522-923 | ||||
| ninety | 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 | ||||||
| three hundred | 337-508 | 360-847 | 384-1227 | 438-1400 | |||||
| 230 | 262-306 | 282-665 | 302-946 | 321-1101 | 367-1256 | ||||
| one hundred sixty | 200 | 215-509 | 232-685 | 248-916 | 264-975 | three hundred-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 | |||
| eighty five | 196-580 | 211-626 | 227-673 | 238-715 | 260-765 | 296-873 | |||
| 75 | 188-560 | 204-603 | 220-648 | 234-692 | 250-737 | 285-841 | |||
| Model | Max. Feed Opening (mm) |
Max. Power (kw) |
Throughput Capacity(t/h) | ||||||
| CSS (mm) |
38 | forty four | 51 | fifty seven | 64 | 70 | |||
| SHC500 | 275 | 315 |
|
267-600 | 293-657 | 328-511 | |||
| 215 | 258-638 | 283-507 | 317-353 | ||||||
| a hundred seventy five | 244-494 | 268-360 | |||||||
| a hundred thirty five | 297-398 | ||||||||
| 115 | 314-358 | ||||||||
| eighty five | 318 | ||||||||
| 65 | |||||||||
| 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 | |||
| 155 | 568-1050 | 623-1150 | 687-1266 | 741-1367 | 805-1243 | 860-1093 | |||
| one hundred | 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~thirteen 0571 88828 1385811777868 | 632-2015 | 687-2000 | 798-1734 | |||
| 230 | 406-1390 | 445-1521 | 491-1676 | 530-1810 | 575-1795 | 715-1560 | |||
| 160 | 334-1230 | 366-1347 | 404-1485 | 436-1602 | 593-1391 | 633-1165 | |||
| one hundred twenty | 406-1160 | 445-1046 | 491-822 | 530-620 | |||||
| 100 | 346-990 | 380-891 | 418-seven hundred | 452-528 | |||||
| 85 | 328-965 | 360-1058 | 396-1165 | 428-1005 | 465-857 | 497-664 | |||
| 75 | 316-850 | 346-756 | 382-575 | 412 | |||||
Notice: CSS represents discharge opening size. The previously mentioned ability is based mostly on rock with bulk density 1.6t/m3. This potential will be affected by aspects these kinds of as picked eccentricity, crushing ratio, material hardness, feed particle size composition, dampness and slit material and so forth. For far more thorough information please make contact with us.
Structure:
Discharging Granularity Curves:
Be aware: The figures on the curves are for the discharging opening dimension and evaluation of sq. gap.
Crusher Cavity Variety:
| Model | Cavity Variety | Feed Opening (mm) |
Max. Feed Size (mm) |
Min. Discharge Opening (mm) |
| SHC100S | EC | 250 | 200 | twenty five |
| SHC200S | EC | 330 | 264 | 30 |
| SHC300S | EC | 380 | 304 | 35 |
| SHC400S | EC | 450 | 360 | thirty |
|
SHC100
|
EF | forty | 35 | 8 |
| F | 50 | 40 | eight | |
| MF | one hundred | eighty | 13 | |
| M | 130 | one hundred | 16 | |
| EC | a hundred and fifty | one hundred twenty | 18 | |
| SHC200 |
F | 70 | sixty | ten |
| M | 130 | a hundred | sixteen | |
| EC | 210 | 165 | twenty five | |
|
SHC300
|
F | 60 | fifty | 8 |
| MF | 100 | eighty | 13 | |
| M | a hundred thirty | one hundred | sixteen | |
| C | 180 | 140 | 25 | |
| EC | 260 | 210 | 30 | |
| SHC400
|
MF | 100 | eighty | 13 |
| M | 130 | one hundred | sixteen | |
| C | a hundred and eighty | one hundred forty | 25 | |
| EC | 260 | 210 | thirty |
Be aware: EF = Further Good, F = Good, MF = Medium Fine, M = Medium, C = Coarse, EC = Added Coarse
Dimensions:
Purposes:
Workshop:
