Performance characteristics of polycrystalline silicon crusher
1. Stable structure and reliable performance, built-in tungsten carbide alloy plate, can meet the pollution value of polysilicon industry
The bearing seat adopts integral cast steel structure to avoid unnecessary burden brought by two-piece bearing chamber to the frame and improve the stability of the whole machine structure. In addition, the heavy eccentric shaft adopts forged billet for processing, which makes PEW series jaw crusher have extraordinary reliability.
2. V-shaped tooth guard plate
"V" type crushing chamber and tooth shape guard plate design is more reasonable, to ensure the consistency of the actual feeding size and theoretical feeding size, effectively increase the crushing area, material in the crushing chamber will not occur blocking material, so that the crushing rate and output maximization, improve the utilization rate of the jaw plate.
3. Hydraulic control is convenient to clear the cavity
Equipped with hydraulic oil station to ensure that the lubrication system of the machine provides oil for the lubricating parts of the machine, and provides guarantee for the safe operation of the machine. At the same time, if the crusher is stopped under load, the hydraulic cavity cleaning system can quickly clean the broken cavity, greatly reducing the downtime.
4. Wedge device is quick to adjust
Using wedge discharge port regulation system, the machine can adjust the discharge port to a predetermined value within a few minutes even in idling, with the help of hydraulic system, automation, more simple, safe and fast than the old gasket type discharge port regulation system.
Working principle of polycrystalline silicon crusher
European polysilicon jaw crusher crushing mode for flexural extrusion type, motor drive belt and pulley, through the eccentric shaft so that the moving jaw swing up and down, when the moving jaw plate to the jaw plate movement, the material is crushed or split. When the moving jaw and the moving jaw plate retreat under the action of eccentric shaft and spring, the previously crushed or split material is discharged from the lower discharge port of the jaw plate. With the continuous rotation of the motor, the motor jaw is broken to crush and discharge materials periodically, so as to achieve mass production.
Type | Feed size | Max feeding grain size | Discharge port adjustable range | Output | Motor power | boundary dimension | weight |
(mm) | (mm) | (mm) | (t/h) | (kw) | (mm) | (t) | |
PE-150×250 | 150×250 | 125 | 10-40 | 1-3 | 5.5 | 670×820×760 | 0.81 |
PE-150×750 | 150×750 | 125 | 10-40 | 5-16 | 15 | 1050×1490×1055 | 3.8 |
PE-250×400 | 250×400 | 210 | 20-60 | 5-20 | 15 | 1160×1300×1240 | 2.8 |
PE-400×600 | 400×600 | 350 | 40-100 | 16-65 | 30 | 1480×1710×1646 | 7 |
PE-500×750 | 500×750 | 425 | 50-100 | 45-100 | 55 | 1800×1796×1940 | 12 |
PE-600×900 | 600×900 | 500 | 65-140 | 60-160 | 75 | 2235×2210×2380 | 17 |
PE-750×1060 | 750×1060 | 630 | 80-160 | 90-320 | 110 | 2430×2302×3110 | 29 |
PE-870×1060 | 870×1060 | 680 | 200-260 | 192-336 | 110 | 2551×2466×2770 | 29.2 |
PE-900×1200 | 900×1200 | 750 | 95-210 | 140-450 | 160 | 3789×2826×3025 | 50 |
PE-1000×1200 | 1000×1200 | 850 | 110-235 | 160-550 | 160 | 3889×2826×3025 | 57 |
PE-1200×1500 | 1200×1500 | 1020 | 150-300 | 400-800 | 185 | 4590×3342×3553 | 100.9 |
PE-250×750 | 250×750 | 210 | 25-60 | 15-30 | 22 | 1750×1500×1420 | 5 |
PE-250×1000 | 250×1000 | 210 | 25-60 | 16-52 | 37 | 1940×1650×1450 | 7 |
PE-250×1200 | 250×1200 | 210 | 25-60 | 20-65 | 37-45 | 1940×1850×1450 | 8.7 |
PE-350×750 | 350×750 | 280 | 30-80 | 16-55 | 30 | 1642×1882×1595 | 6.1 |
PE-300×1300 | 300×1300 | 250 | 25-100 | 20-90 | 55 | 2285×2000×1720 | 11.6 |