GPY Series Single-Cylinder Hydraulic Cone Crusher
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  • GPY Series Single-Cylinder Hydraulic Cone Crusher

Product Introduction

The GPY series single-cylinder hydraulic cone crusher is a high-performance, single-cylinder hydraulic cone crusher optimized and manufactured by our company, building upon the introduction and integration of advanced European and American technologies. This cone crusher employs a unique design principle that combines laminated crushing with high energy input, coupled with an optimally designed crushing chamber. As a result, it delivers exceptional features such as a large reduction ratio, high efficiency, low energy consumption, and uniformly sized final product particles.

Application areas

Primarily used for crushing raw materials in industries such as metallurgy, mining, construction, chemicals, and silicate production. It can be installed on either a concrete foundation or a steel-structure base, making it suitable for both stationary and mobile applications.

Applicable Materials

Suitable for crushing medium-hard and fine-hard rocks, ores, slag, refractory materials, and various other minerals and rocks.

Product Features|

1. A specialized crushing chamber design, combined with optimized eccentricity, swing frequency, and layer-compression crushing techniques, delivers higher productivity, a greater reduction ratio, and superior particle shape.

2. A robust equipment structure and advanced overload protection system ensure long-term operation even in demanding hard-rock crushing applications, resulting in a low failure rate.

3. The positive-pressure dust-proof system ensures the lubrication system remains clean at all times, protecting equipment from dust contamination during operation—without requiring additional lubrication seals or manual maintenance.

4. Highly automated and easy to operate, even ordinary workers can quickly master its use. The equipment is convenient to maintain—most components can be easily disassembled and reassembled from the top and sides—reducing worker fatigue and enhancing overall construction efficiency.

5. The special crushing wall and grinding bowl wall design enhances the utilization of wear parts, significantly reducing users' investment in spare components.

How it works

When operating, the motor’s rotation drives the pulley, transmission shaft, and conical section to perform an oscillating motion under the force of the eccentric sleeve. This causes the crushing wall of the cone crusher to alternately approach and move away from the stationary white-wall surface mounted on the upper frame, repeatedly impacting and breaking the ore within the crushing chamber. The crushed material is then discharged from the bottom. Adjusting the discharge opening size: The primary function of the bottom hydraulic cylinder is to regulate the vertical position of the main shaft, thereby controlling the gap between the moving cone and the outer cone liner. Reducing this gap results in finer product particles, while increasing the gap produces coarser output. Additionally, by selecting different crushing cavity types or varying the eccentricity, you can further fine-tune the final particle size of the discharged material.

Technical specifications

Intermediate Crushing Cone Operation Technical Parameters

Specification Model

Eccentricity Ecco
(mm)

Feed inlet size
(mm)

Maximum feed particle size
(mm)

Minimum discharge opening
(mm)

Power
(KW)

Production capacity (t/h) under the Close-Side Setting (CSS) discharge opening

25mm

30mm

35mm

40mm

45mm

50mm

GPY100S

20

250

200

25

90

115–125

140–150

155–175

165–195

180–210

 

25

 

180-190

195–215

205-225

 

 

GPY200S

25

330

264

30

160

 

165-215

185–235

205-255

225–275

 

32

 

 

225–275

265-315

275-345

 

GPY300S

32

380

304

30

250

 

320–350

350–390

370–410

390–430

 

40

 

 

400–450

440–490

470–520

 

GPY400S

36

450

360

30

280

 

400–450

440–490

480–520

500–540

550–600

42

 

 

520–570

550–630

620–670

650–700

Fine Cone Operation Technical Parameters

Specification Model

Eccentricity Ecco
(mm)

Maximum installed power
(KW)

Production capacity (t/h) under the Close-Side Setting (CSS) discharge opening

8mm

10mm

15mm

20mm

25mm

30mm

35mm

40mm

GPY100

20

90

45-50

50-55

65-75

90-100

 

 

 

 

25

 

50-60

70–85

100–115

 

 

 

 

GPY200

25

160

 

85–105

105–125

125–150

155–175

180–205

 

 

32

 

 

135–155

165–185

185–215

 

 

 

GPY300

32

250

100–120

110–140

155–185

185–215

220–250

255-285

290–320

 

40

 

140–160

195–225

235–265

280–310

315-345

 

 

GPY400

36

280

 

150–180

200–240

260–285

290–320

330–365

370–400

410–440

42

 

 

260–290

320–350

355–385

390–420

430–460

470–500

Note: The production capacity refers to material with a moisture content of no more than 4%, free of clay, and properly graded in terms of feed particle size—specifically, materials smaller than the discharge opening account for less than 10% of the total feed. Additionally, the feed must be evenly distributed around the crushing chamber, and the rock should have a loose bulk density of 1.6 t/m³ under open-circuit operating conditions. Under closed-circuit operation, the equipment’s capacity can increase by 15% to 30% compared to open-circuit settings. Please note that factors such as the selected equipment’s eccentricity, reduction ratio, material hardness, feed particle size distribution, and feed moisture and silt content can all influence the crusher’s performance. For application-specific details, feel free to reach out for further consultation.

Technical Specifications (GPY500S)

Specification Model

Maximum installed power
(KW)

Cavity type

Maximum feed size
(mm)

Production capacity (t/h) under the Close-Side Setting (CSS) discharge opening

41

44

48

51

54

60

64

70

76

83

GPY500S

315

EC

560

600–680

670–730

750–820

800–850

870–930

950–1000

1030–1090

1000–1050

920–983

604

GPY650S

400

EC

560

 

730–790

820–880

865-930

950–1000

10:30 AM - 11:00 AM

1180–1250

1380–1450

1450–1500

 

GPY800S

600

EC

670

 

1050–1200

1250–1310

1320–1420

1450–1530

1550–1650

1675–1750

1830–1900

1925–2000

 

Note: EC = Extra Coarse Crushed

Technical specifications (GPY500, GPY800, GPY1000)

Specification Model

Maximum Capacity
Machine power
(KW)

Cavity type

Maximum allowance
Material dimensions
(mm)

Production capacity (t/h) under the Close-Side Setting (CSS) discharge opening

10mm

13mm

16mm

19mm

22mm

25mm

32mm

38mm

44mm

51mm

57mm

64mm

70mm

GPY500

315

EC

275

 

 

172

290–333

390–431

420–460

500-542

560–600

610-657

450–511

 

 

 

C

215

 

 

150–185

320-362

420–475

465–505

540-542

580–638

450–507

310-353

 

 

 

MC

175

 

 

210-248

350–421

410–450

440–480

500–550

430–494

300–360

 

 

 

 

M

135

 

 

250–290

390–435

425–465

455–495

455–497

340–398

 

 

 

 

 

MF

115

 

188

320–364

350-391

380–418

415-445

400-446

314-358

 

 

 

 

 

F

85

 

260–300

280-323

310-347

330-371

355–395

340–396

318

 

 

 

 

 

EF

65

 

250-288

270-311

250-293

250–290

 

 

 

 

 

 

 

 

GPY650

450

EC

290

 

 

200–220

350–400

450–503

500-551

580–630

660–710

700-753

650–700

 

 

 

MC

180

 

 

300–350

440–490

460–510

520–565

570–617

540–590

580–630

 

 

 

 

MF

115

 

190–215

420–470

430–488

470–515

520–571

530–580

420–470

 

 

 

 

 

F

85

 

330–384

390–447

400–451

410–463

450-502

500-552

 

 

 

 

 

 

GPY800

560

EC

300

 

 

 

 

460–520

740–800

840–900

950–1010

1060–1120

1170–1230

1290–1350

1400–1450

1220–1280

C

240

 

 

 

400

590–631

830-888

950–1013

1010–1065

1110–1167

1230–1286

1320–1388

1450–1506

1270–1326

MC

195

 

 

 

380–435

660–718

770-832

890–950

990–1050

1090–1150

1210–1267

1310–1368

1310–1365

1140–1201

M

155

 

 

 

500–563

720–780

780-836

890–948

990–1050

1090–1150

1210–1266

1310–1367

1180–1243

1030–1093

MF

100

 

 

374–420

650-711

700–760

750–809

860–923

880-937

720–784

697

 

 

 

F

90

 

352-390

590–650

640–700

690–747

740–795

850–907

790–852

650–713

 

 

 

 

EF

80

340–400

450–511

490–553

530–593

580–635

620–675

710-770

670-728

600-664

 

 

 

 

GPY1000

750

EC

370

 

 

 

 

 

390–454

1235–1304

1375–1441

1515–1580

1675–1740

1815–1878

1975–2038

2111–2176

C

330

 

 

 

 

392

720–770

1335–1400

1485–1547

1630–1695

1803–1868

1955–2015

2123–2188

2075–2137

MC

300

 

 

 

445-508

785-847

1165–1227

1335–1400

1485–1547

1630–1695

1803–1868

1955–2015

1935–2000

1665–1734

M

230

 

 

262-306

600–665

885-946

1045–1101

1200–1256

1315–1390

1455–1521

611-1676

1745–1810

1720–1795

1495–1560

MF

160

 

200

445-509

620–685

855-916

910–975

1045–1112

1165–1230

1280–1347

1420–1485

1535–1602

1315–1391

1100–1165

F

120

 

243–284

600–665

765-833

825–890

885-947

1015–1080

1100–1160

985–1046

755-822

555-620

 

 

EFX

100

 

355-418

595-661

645-710

695-758

745-807

870–921

925–990

825-891

635–700

465–528

 

 

EF

85

180–240

515-580

565-626

605–673

655-715

700–765

820–873

900–965

995–1058

1100–1165

945–1005

795–857

600-664

EEF

75

405-470

495-560

535-603

685-648

625–692

675–737

775–841

785–850

695–756

510–575

412

 

 

Note:

1. EEF = Ultra-fine, EF = Extra-fine crushing, EFX = Sub-fine crushing, F = Fine crushing, MF = Medium-fine crushing, M = Medium crushing, C = Coarse crushing, MC = Medium-coarse crushing, EC = Extra-coarse crushing
2. The production capacity is designed for materials with a moisture content of no more than 4%, free of clay, and featuring a suitable feed particle size distribution—specifically, material smaller than the discharge opening should account for less than 10% of the total feed. Additionally, the feed must be evenly distributed around the crushing chamber, and the rock should have a loose density of 1.6 t/m³. Under open-circuit operation conditions, this design ensures optimal throughput. In contrast, under closed-circuit operation, the equipment’s capacity increases by 15% to 30%. Please note that factors such as the selected equipment’s eccentricity, reduction ratio, material hardness, feed particle size composition, and feed moisture and silt content can all influence the crusher’s performance. For application-specific details, we recommend contacting us directly for further assistance.


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GPY Series Single-Cylinder Hydraulic Cone Crusher
+
  • GPY Series Single-Cylinder Hydraulic Cone Crusher

GPY Series Single-Cylinder Hydraulic Cone Crusher


The GPY series single-cylinder hydraulic cone crusher is a high-efficiency, single-cylinder hydraulic cone crusher optimally designed and manufactured by our company, building upon the foundation of advanced technologies introduced and absorbed from Europe and America. This cone crusher employs a unique design principle that combines laminated crushing with high energy input, coupled with an optimized crushing chamber configuration. As a result, it delivers exceptional features such as a large reduction ratio, high efficiency, low energy consumption, and uniformly sized final product particles.


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