working principle
The motor of the vibrating feeder drives two meshed eccentric shafts to rotate through a triangle belt, thereby generating a synthetic linear excitation force, which forces the body to vibrate on the support spring, and the material uses this vibration as power to move in the trough. It performs sliding and throwing motions to move the material forward to achieve the purpose of feeding. When materials pass through the screen bars on the tank body, smaller materials can fall through the gaps between the screen bars to play a screening role.
Performance characteristics
1. Simple structure.
2. High efficiency.
3. Easy installation.
Technical Parameters
Model | Product fineness | Air volume (m³/h) | Rotary speed (rpm) | Motor power (kw) | Max treatment volume (t/h) | Output (t/h) |
TS-1 | 0-3 | 16000 | 250-500 | 15 | 50 | 10-18 |
TS-2 | 0-3 | 22000 | 220-450 | 18.5 | 90 | 15-28 |
TS-3 | 0-3 | 30000 | 180-400 | 22 | 120 | 20-40 |
TS-4 | 0-3 | 45000 | 160-340 | 30 | 150 | 30-50 |
TS-5 | 0-3 | 60000 | 130-300 | 30 | 210 | 40-70 |
TS-6 | 0-3 | 75000 | 130-260 | 37 | 260 | 50-85 |
TS-7 | 0-3 | 95000 | 120-240 | 45 | 330 | 75-110 |
TS-8 | 0-3 | 120000 | 110-200 | 55 | 400 | 95-130 |
TS-9 | 0-3 | 150000 | 110-180 | 75 | 500 | 110-160 |
TS-10 | 0-3 | 180000 | 100-180 | 90 | 580 | 110-160 |
TS-11 | 0-3 | 210000 | 100-170 | 110 | 680 | 130-190 |
TS-12 | 0-3 | 240000 | 100-170 | 132 | 760 | 175-250 |
Note: Technical data are subject to change without prior notice.