Sichuan BENO Energy Conservation and Environmental Protection Technology Co., Ltd. |
Verified Suppliers
|
|
Model | Feed port size (mm) | Maximum feed particle size (mm) | Adjustment range of outlet (mm) | Production capacity (t/h) | Power (kw) | Rotating speed (r/min) | Weight (t) |
XCEV408 | 410*1080 | 350 | 40-165 | 50-309 | 75 | 330 | 8.9 |
XCEV508 | 510*800 | 430 | 40-175 | 50-355 | 75 | 330 | 8.8 |
XCEV513 | 510*1300 | 430 | 40-180 | 60-410 | 90 | 330 | 15 |
XCEV515 | 510*1500 | 430 | 40-180 | 65-486 | 110 | 330 | 18.2 |
XCEV609 | 630*910 | 535 | 50-180 | 80-403 | 90 | 300 | 12.5 |
XCEV710 | 710*1060 | 600 | 60-200 | 135-485 | 110 | 280 | 18.5 |
XCEV712 | 760*1150 | 640 | 60-210 | 180-495 | 110 | 260 | 22.4 |
XCEV810 | 850*1100 | 720 | 80-210 | 205-581 | 132 | 260 | 27.8 |
XCEV912 | 950*1250 | 810 | 100-250 | 255-808 | 160 | 240 | 39.5 |
Differences between Jaw Crusher and Cone Crusher
Operating Principle
Jaw Crusher: A jaw crusher operates by squeezing the material
between two plates, known as jaws. The movable jaw moves back and
forth towards the fixed jaw, exerting pressure on the material to
crush it.
Cone Crusher: A cone crusher operates by rotating a mantle within a
concave bowl. As the mantle moves, it creates a compressive force
against the material, crushing it between the mantle and the
concave.
Crushing Mechanism
Jaw Crusher: The crushing action of a jaw crusher is primarily
achieved by the "swing" motion of the movable jaw. It swings
towards and away from the fixed jaw, exerting a compressive force
on the material.
Cone Crusher: A cone crusher crushes the material through a
squeezing action between the mantle and concave. The material is
gradually compressed and crushed as it moves down through the
crushing chamber.
Feed Size and Output Size
Jaw Crusher: Jaw crushers are suitable for processing larger feed
materials. They can accept larger-sized rocks and produce coarser
output compared to cone crushers.
Cone Crusher: Cone crushers are suitable for processing smaller
feed materials. They are often used for secondary or tertiary
crushing and are capable of producing finer output sizes.
Application Range
Jaw Crusher: Jaw crushers are commonly used in various industries,
including mining, construction, and recycling. They are suitable
for processing a wide range of materials, including hard and
abrasive rocks, ores, and minerals.
Cone Crusher: Cone crushers are primarily used in the mining and
aggregate industries. They are often employed for crushing
medium-hard to hard materials, such as granite, basalt, and iron
ore.
Maintenance and Operating Costs
Jaw Crusher: Jaw crushers generally have simpler maintenance
requirements compared to cone crushers. They have fewer moving
parts and are easier to maintain. However, jaw plates may need to
be replaced periodically, which can incur additional costs.
Cone Crusher: Cone crushers require more regular maintenance and
inspection. They have more moving parts, including the mantle and
concave, which may wear over time and require replacement.
Consequently, cone crushers generally have higher maintenance and
operating costs.
Shape of Crushed Material
Jaw Crusher: Jaw crushers produce more elongated and flaky
particles compared to cone crushers. The shape of the crushed
material is determined by the adjustable discharge opening and the
eccentric movement of the jaw.
Cone Crusher: Cone crushers produce more uniform and cubical-shaped
particles due to the continuous crushing action between the mantle
and concave. The shape of the crushed material is influenced by the
CSS (closed side setting) of the cone crusher.
In summary, jaw crushers and cone crushers differ in terms of their operating principle, crushing mechanism, feed size and output size capabilities, application range, maintenance requirements, and shape of the crushed material. Understanding these differences is crucial in selecting the appropriate crusher for specific applications and production requirements.
Our Introduction