Customization: | Available |
---|---|
Type: | Linear |
Transmission Structure: | Vibrating Screen |
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Feeding Particle Size: |
≤100mm |
Applicable materials: |
Tailings dry drainage: iron tailings, gold tailings, copper tailings, vanadium tailings, lead-zinc tailings, graphite tailings Washing Sand: Quartz Sand, Zircon Sand, Glass Sand, Building Sand, Casting Sand, Building Material Sand, Potassium Feldspar Dehydration Slurry Dewatering: Slurry Dewatering Soil remediation: soil remediation Sewage Treatment: Solid-liquid Separation of Municipal Sewage, Industrial Sewage and River Sludge, Filtration of Sewage Treatment Plant |
Application area: |
It is mainly used for tailings dewatering in mineral processing industry, slurry dewatering in coal preparation plant, quartz sand dewatering in water washing and ceramic slurry dewatering, as well as dry and wet classification, dewatering, demineralization and desliming of medium and fine particulate materials in power, sugar and salt making industries. Coal slurry recovery, pressure filtration, filtration, dewatering and recovery of other very fine materials, with a thickener for tailings dry drainage. |
Product details and department names: |
The dewatering vibrating screen is mainly composed of a screen box, an exciter, a shock absorber and a motor. |
Working principle: |
The dewatering vibrating screen adopts seat or flange exciter, which is driven by two motors in the opposite direction and rotates synchronously. The self-synchronization technology is driven by two motors. The exciter is driven by a winding coupling. When the two groups of exciters rotate synchronously and reversely, the exciting force produced by the eccentric block cancels each other in the direction parallel to the axis of the motor and is perpendicular to the axis of the motor. The two axes have an inclination to the screen surface. Under the action of the excitation force, the screen box moves in a reciprocating straight line. The material is thrown up and jumped forward in a straight line motion. At the same time, the V-shaped structure of the screen surface can achieve better dehydration effect. Dewatering screen, also known as high frequency dewatering screen, changes the water tension of the pulp surface by exciting force, and the pulp water becomes the material under the screen through the screen, while the fine material is blocked by the screen to form a filter layer which moves forward and discharges under the influence of vibration force. |
Model | Screening mesh area |
Power | Capacity | Input size | Dimension size |
m2 | kw | t/h | mm | mm | |
TS0918 | 1.62 | 0.75×2 | 10~20 | ≤10 | 1885*1290*1024 |
TS0924 | 2.16 | 0.75×2 | 10~20 | 2485*1290*1224 | |
TS1224 | 2.88 | 1.5×2 | 30~50 | 2458*1590*1324 | |
TS1230 | 3.6 | 2.2×2 | 30~50 | 3085*1590*2424 | |
TS1236 | 4.32 | 2.2×2 | 30~50 | 3685*1590*1524 | |
TS1530 | 4.5 | 3×2 | 50~80 | 3083*1890*1421 | |
TS1536 | 5.4 | 3×2 | 50~80 | 3683*1890*1601 | |
TS1836 | 6.48 | 4×2 | 100~150 | 3715*2466*1855 | |
TS1842 | 7.56 | 4×2 | 100~150 | 4315*2466*2044 | |
TS1848 | 8.64 | 5.5×2 | 100~150 | 4915*2466*2244 | |
TS2442 | 10.08 | 7.5×2 | 130~180 | 4315*3085*2042 | |
TS2448 | 11.52 | 7.5×2 | 130~180 | 4915*3085*2242 |