Processing capacity
150–1,250 (t/h)
Application areas
Widely used in industries such as metallurgy, mining, chemical engineering, cement production, construction, refractory materials, and ceramics.
Applicable Materials
Suitable for materials such as ores, rocks, and slag with a compressive strength of no more than 280 MPa.
Product Features
1. Designed based on the principle of generating excitation force through shaft eccentric vibration.
2. The vibration is smooth, ensuring continuous and uniform feeding, thus enabling balanced production across the entire line.
3. While feeding material, fine particles can be pre-screened to enhance crushing efficiency.
4. The structurally designed adjustable screen bar gap effectively prevents material blockage.
5. Optional speed-regulating motor available; frequency adjustment allows for easy control of the feed rate, eliminating the need for frequent motor starts.
6. The equipment operates quietly, helping to improve the work environment.
7. Highly efficient, with large feeding capacity, easy installation and maintenance, and low operating costs.
How it works
The ZSW series vibrating feeder primarily consists of a vibrator frame, springs, a vibrator unit, an electric motor-mounted vibration frame, and the motor itself. The vibrator unit is composed of two eccentric shafts positioned at specific locations, which are meshed together via gears. During assembly, it’s crucial to ensure that the two gears align precisely according to their designated markings. Once powered by the motor, the two eccentric shafts begin rotating, generating a strong, combined linear excitation force. This force induces forced vibrations in the machine body as it rests on supporting springs. Meanwhile, the material—driven by these vibrations—undergoes both sliding and throwing motions along the feeding trough, enabling it to move forward and achieve the intended feeding process. Additionally, as the material passes through the screen bars embedded in the trough, smaller particles can easily fall through the gaps between the bars, bypassing the subsequent crushing stage altogether. In this way, the device effectively performs a screening function as well.
Technical specifications
| Specification Model | Maximum feed particle size (mm) | Rotational speed (r/min) | Angle of inclination (°) | Processing capacity (t/h) | Power (kW) | |
| ZSW380×95 | 500 | 500–800 | 0-10 | Approximately 150 | 11 | |
| ZSW420×110 | 580 | 500–800 | 0-10 | 120-240 | 15 | |
| ZSW490×110 | 580 | 500–800 | 0-10 | 120-280 | 18.5 | |
| ZSW600×130 | 750 | 500–800 | 0-10 | 220–500 | 30 | |
| ZSW600×15 0 | 900 | 500–800 | 0-10 | 400–750 | 37 | |
| ZSW600×180 | 1050 | 500–800 | 0-10 | 400–1000 | 45 | |
| ZSW600×210 | 1200 | 500–800 | 0-10 | 550–1250 | 45 | |
| ZSW600×240 | 1400 | 500–800 | 0-10 | 600–1500 | 55 | |
| Note: The processing capacities listed in the table are for reference only, and the actual capacities depend on site-specific conditions, including the inclination angle of the vibrating feeder, screen bar spacing, vibration frequency, and material type. | ||||||
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ZSW Series Vibrating Feeder
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