Customizable Electricity Mining Vibrating Feeder With Dual Eccentric Shaft Exciter
Product Introduction
The ZSW series vibrating feeder is engineered with advanced international technology and designed for heavy-duty applications across multiple industries including metallurgy, coal mining, mineral processing, building materials, chemicals, and abrasives. This feeder efficiently handles various crushed materials such as river pebbles, granite, basalt, quartz stone, iron ore, diabase, limestone, calcite, dolomite, barite, talc, gypsum, bentonite, and more.
Material Selection Guide for Durable Vibrating Feeders
When selecting materials for durable vibrating feeders in manufactured sand plants, consider these options:
Steel Alloys: Carbon steel offers strength and cost-effectiveness for general applications, while alloy steel provides enhanced toughness and wear resistance for abrasive materials.
Stainless Steel: 304 or 316 stainless steel resists corrosion and rust, with 316 being ideal for aggressive environments with moisture or chemical exposure.
Cast Iron: Known for durability and vibration absorption in heavy applications, though less corrosion-resistant than steel.
Polyurethane: Used for lining to provide wear resistance, reduce noise, and absorb impacts when handling abrasive materials.
Rubber: Ideal for vibration isolation, noise reduction, and impact resistance in critical areas.
Composite Materials: Advanced composites offer low weight, high strength, and resistance to wear and corrosion for specialized applications.
Key Material Considerations
Abrasion Resistance: Must withstand wear from handled materials
Environmental Resistance: Consider exposure to moisture, chemicals, and temperature variations
Weight and Vibration Absorption: Materials should provide stability and effectively absorb vibrations
Working Principle
The ZSW feeder utilizes an inertia-type dual eccentric shaft exciter to generate directional vibration forces. Between the two shafts is a pair of gears with a 1:1 ratio, ensuring opposite rotation directions at equal speeds. Driven by an electric motor, the eccentric shafts rotate, with their equal eccentric masses and distances causing inertia forces to cancel in one direction and combine in another. This creates a composite directional vibration force that causes the feeder trough to vibrate forcibly on supporting springs. Materials slide and are thrown along the trough, moving forward to achieve feeding. When materials pass through trough baffles, smaller particles fall through gaps without further crushing, directly entering the next process for pre-screening and ensuring optimal crushing efficiency and capacity.
Technical Parameters
| Model |
Feed Slot Size (mm) |
Feed Particle Size (mm) |
Angle Range (°) |
Capacity (t/h) |
Motor Power (kw) |
| ZSW0740 |
700x4000 |
550 |
5-7 |
90-180 |
11 |
| ZSW0940 |
900x4000 |
750 |
5-7 |
120-350 |
15 |
| ZSW1145 |
1100x4500 |
750 |
5-7 |
150-380 |
22 |
| ZSW1250 |
1200x5000 |
800 |
5-7 |
280-500 |
37 |
| ZSW1550 |
1500x5000 |
900 |
5-7 |
500-800 |
55 |
| ZSW1560 |
1500x6000 |
900 |
5-7 |
600-1000 |
75 |
| ZSW1660 |
1600x6000 |
900 |
5-7 |
600-1000 |
75 |
| ZSW1860 |
1800x6000 |
1100 |
5-7 |
700-1200 |
75 |
| ZSW2060 |
2000x6000 |
1200 |
5-7 |
800-1500 |
90 |
On-site Installation View
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