Introduction
The lab impact crusher can deal with all kinds of coarse, medium and fine materials (granite, limestone, concrete, etc) whose side length is not more than 500mm and compressive strength is not more than 350MPa.Widely used in all kinds of ore crushing, railway, highway and construction industry,etc.
[Application]: sand and stone yard, mining, coal mining, concrete mixing plant, dry mortar, power plant desulfurization, quartz sand, etc.
[Materials]: river pebbles, granite, basalt, iron ore, limestone, quartz stone, diabase, etc
Characteristic
1.High crushing ratio
Stone beat iron crushing cavity, crushing efficiency is higher.
2.Low consumption of wearing parts
The double casting combination of the rotor maximizes extents the wear time and protects the rotor from damage due to excessive wear.
3.Convenient adjustment of feed port
The lower part of the feeding cavity is designed and installed with a flow control device.By adjusting the screw outside the feeding cavity, the size of the feeding port can be adjusted.
4.Excellent grain shape
The product is cube shape, good grain shape, reasonable gradation, adjustable fineness modulus;Especially suitable for manual sand making and stone shaping, practice has proved that the effect of sand making and shaping is 30% higher than that of other traditional equipment.
Working principle
The lab impact crusher is composed of main case, rotary and impact plate.
Impact crushers use impact energy to break materials.Work, under the drive of the motor, the rotor high-speed rotation, the material into the plate hammer function area, and the rotor plate hammer impact broken, and then again to counter device is broken, and then back to the board from the back plate hammer function area is broken again, this process is repeated, material from big to small into one, two, three, back cavity repeated broken, until the material being broken to the required size, is being exhausted from port discharge.Adjusting the distance between the counter frame and the rotor can change the particle size and shape of the material.
Technical Parameter
Model | Specification (mm) | Feeding Inlet Size (mm) | Maximum Feeding Inlet Side Length (mm) | Productivity Capacity (t/h) | Power (kw) | Total Weight (t) | Outer Dimension (L×W×H) (mm) |
PF-1007 | Φ1000×700 | 400×730 | 300 | 30-70 | 45 | 12 | 2330×1660×2300 |
PF-1010 | Φ1000×1050 | 400×1080 | 350 | 50-90 | 55 | 15 | 2370×1700×2390 |
PF-1210 | Φ1250×1050 | 400×1080 | 350 | 70-130 | 110 | 17.7 | 2680×2160×2800 |
PF-1214 | Φ1250×1400 | 400×1430 | 350 | 100-180 | 132 | 22.4 | 2650×2460×2800 |
PF-1315 | Φ1320×1500 | 860×1520 | 500 | 130-250 | 220 | 27 | 3180×2720×2620 |
PF-1520 | Φ1500×2000 | 830×2040 | 700 | 300-550 | 400 | 50.6 | 3959×3564×3330 |