Hydraulic Cone Crusher
Working Principle
HCC series single cylinder hydraulic cone crusher, a kind of cone crusher with advanced technology in the world, has not only the features of high reliability, but also the feature of high crushing efficiency, low operation cost, and good shape of the end products. It is widely used in mining and gravel aggregate industries, and is suitable for crushing various materials with hard and above medium hardness.
There’re various options for cavities. By proper chamber and eccentricity, it meets the customer’s maximum demand for production and high output. Under the condition of full feeding, it can realize laminating crushing, and make better material for the products.
Low Vulnerable Part Consumption and Low Operation Cost
The discharge opening can be adjusted timely and conveniently with hydraulic adjusting design, which realizes full load operation, lower wear parts consumption and reduces operation cost.
Easy Chamber Exchange
Due to the same body structure, we can get different crushing chamber by changing the liner plate to fulfill the various processing requirement for primary and fine crushing.
Advanced Hydraulic Technology Offers Easy Operation and Maintenance
Adopting advanced hydraulic technology, the overload protection can be realized effectively, which simplifies the structure of crusher and reduces its weight. All maintenance and inspection can be fulfilled through the top of the crusher, achieving easy maintenance.
Large Feeding Inlet Design
Large feeding inlet design is adopted by S type HCC series cone crusher to provide good mating with primary jaw crusher and the crushing capacity can be greatly increased. While processing gravels, it can replace jaw crusher for primary crushing.
Application Scope
Hydaulic cone crusher is one of the most commonly used mining equipment, which is widely used in mineral processing, construction materials, silicate and chemical industries. In the production of small scale, medium scale or large scale mineral processing plants, it is generally used as the secondary and tertiary crushing machine to crush hard or medium hard metal ores of gold, silver, copper, lead, zinc, nickel, manganese, iron, molybdenum, chromium, tin and others, as well as stone, rock, granite, limestone, barite, quartz, graphite, feldspar, fluorspar, etc.
Technical Parameters of HCC Series Single Cylinder Hydraulic Cone Crusher
|
Model |
Chamber |
Inlet Size (mm) |
Max. Feeding Size (mm) |
Discharging Size (mm) |
Power (kW) |
||
|
HCC100 |
|
Stroke 16 |
Stroke 22 |
|
90 |
||
|
A |
150 |
120 |
12~39 |
15~37 |
|||
|
B |
130 |
105 |
10~33 |
11~31 |
|||
|
C |
100 |
85 |
7~33 |
9~30 |
|||
|
D |
40 |
32 |
5~31 |
6~29 |
|||
|
HCC200 |
|
Stroke 18 |
Stroke 25 |
|
160 |
||
|
A |
220 |
180 |
18~35 |
22~30 |
|||
|
B |
150 |
120 |
15~35 |
19~30 |
|||
|
C |
80 |
60 |
9~35 |
12~30 |
|||
|
D |
40 |
32 |
6~35 |
8~30 |
|||
|
HCC300 |
|
Stroke 25 |
Stroke 32 |
|
250 |
||
|
A |
230 |
190 |
20~45 |
25~40 |
|||
|
B |
150 |
125 |
17~45 |
20~40 |
|||
|
C |
80 |
60 |
10~40 |
13~35 |
|||
|
D |
40 |
32 |
6~40 |
8~35 |
|||
|
HCC500 |
|
Stroke 25 |
Stroke 32 |
Stroke 40 |
315 |
||
|
A |
230 |
180 |
22~50 |
26~45 |
30~40 |
||
|
B |
150 |
125 |
19~48 |
22~43 |
26~38 |
||
|
C |
100 |
80 |
12~40 |
14~35 |
16~30 |
||
|
D |
50 |
40 |
8~30 |
10~25 |
12~20 |
||
|
Model |
Stroke |
Closed side discharge outlet (mm) |
||||||||
|
8 |
12 |
16 |
20 |
25 |
30 |
35 |
40 |
45 |
||
|
Capacity (t/h) |
||||||||||
|
HCC100 |
16 |
35~40 |
45~55 |
55~65 |
67~75 |
75~85 |
90~100 |
105~115 |
|
|
|
22 |
45~50 |
55~65 |
65~75 |
75~90 |
85~105 |
100~125 |
115~135 |
|
|
|
|
HCC200 |
18 |
65~75 |
75~90 |
85~105 |
100~125 |
135~150 |
160~175 |
170~190 |
|
|
|
25 |
|
90~110 |
110~130 |
125~155 |
160~180 |
185~210 |
|
|
|
|
|
HCC300 |
25 |
100~120 |
110~135 |
130~160 |
150~180 |
170~200 |
200~230 |
230~260 |
250~290 |
270~310 |
|
32 |
110~135 |
130~150 |
160~200 |
180~220 |
200~250 |
230~280 |
260~310 |
280~320 |
300~340 |
|
|
HCC500 |
25 |
100~120 |
120~150 |
140~170 |
160~190 |
190~220 |
220~250 |
250~280 |
280~310 |
330~370 |
|
32 |
|
150~170 |
170~200 |
200~230 |
250~270 |
280~300 |
310~340 |
370~420 |
430~500 |
|
|
40 |
|
180~200 |
210~240 |
250~280 |
300~330 |
330~380 |
370~420 |
430~500 |
|
|
Technical Parameters of Medium Crushing Type
|
Model |
Chamber |
Inlet Size (mm) |
Max. Feeding Size (mm) |
Discharging Size (mm) |
Power (kW) |
||
|
HCCZ100 |
|
Stroke 16 |
Stroke 22 |
|
75~90 |
||
|
A |
250 |
210 |
35~65 |
35~60 |
|||
|
B |
200 |
170 |
35~65 |
35~60 |
|||
|
HCCZ200 |
|
Stroke 18 |
Stroke 25 |
|
110~160 |
||
|
A |
330 |
280 |
27~65 |
30~60 |
|||
|
B |
250 |
210 |
25~60 |
28~55 |
|||
|
HCCZ300 |
|
Stroke 25 |
Stroke 32 |
|
160~250 |
||
|
A |
380 |
320 |
28~73 |
32~69 |
|||
|
B |
280 |
240 |
26~66 |
30~62 |
|||
|
HCCZ500 |
|
Stroke 18 |
Stroke 25 |
Stroke 32 |
250~315 |
||
|
A |
500 |
420 |
50~80 |
55~75 |
60~70 |
||
|
B |
380 |
320 |
40~70 |
45~65 |
50~60 |
||
|
Model |
Stroke |
Closed Side Discharge Outlet (mm) |
||||||||
|
35 |
40 |
45 |
50 |
55 |
60 |
65 |
70 |
75 |
||
|
Capacity (t/h) |
||||||||||
|
HCCZ100 |
16 |
135~150 |
145~165 |
155~175 |
165~185 |
175~190 |
180~205 |
|
|
|
|
20 |
160~180 |
170~200 |
180~210 |
190~220 |
200~230 |
205~235 |
|
|
|
|
|
HCCZ200 |
18 |
160~190 |
180~210 |
200~230 |
230~250 |
250~270 |
270~300 |
|
|
|
|
25 |
190~240 |
210~260 |
230~280 |
260~310 |
290~340 |
310~370 |
|
|
|
|
|
HCCZ300 |
25 |
250~300 |
290~340 |
320~350 |
350~380 |
380~410 |
410~440 |
440~470 |
|
|
|
32 |
340~390 |
370~420 |
400~440 |
430~470 |
470~500 |
500~510 |
530~540 |
|
|
|
|
HCCZ500 |
18 |
|
|
300~350 |
330~380 |
370~420 |
400~450 |
430~480 |
460~510 |
500~550 |
|
25 |
|
|
|
500~550 |
550~600 |
600~650 |
650~700 |
700~750 |
750~800 |
|
|
32 |
|
|
|
650~700 |
700~750 |
750~800 |
825~875 |
900~950 |
950~1000 |
|
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