Introduction of Electromagnetic Vibrating Feeder
Electromagnetic Vibrating Feeder can feed lump or granulated materials to the other devices evenly and continuously. In sand and gravel production line, the continuous feeding of the vibrating feeding machine helps avoid the blockage at receiving hopper. With easy flow adjustment, low noise and energy consumption, vibrating feeder is applied to crushing and screening production lines on crushing site, in mining, metallurgy, building material, chemistry, mineral processing, and coal industries.
Electromagnetic Vibrating Feeder can feed lump or granulated materials to the other devices evenly and continuously. In sand and gravel production line, the continuous feeding of the vibrating feeding machine helps avoid the blockage at receiving hopper. With easy flow adjustment, low noise and energy consumption, vibrating feeder is applied to crushing and screening production lines on crushing site, in mining, metallurgy, building material, chemistry, mineral processing, and coal industries.
Features of Electromagnetic Vibrating Feeder:
Smooth vibration, reliable operation, long service life, low noise, low power consumption, easy to adjust, simple structure, easy to install, light weight, small volume, simple maintenance.
Smooth vibration, reliable operation, long service life, low noise, low power consumption, easy to adjust, simple structure, easy to install, light weight, small volume, simple maintenance.
Application of Electromagnetic Vibrating Feeder:
1).It is used to transfer the large size materials and granular materials from hopper to receiving device uniformly, periodically and continuously in the production flow and to feed materials into the crusher continuously and uniformly also to screen the materials in the sandstone production line.
2).The vibrating feeder is widely used to match the crushing and sieving equipments in many industries including metallurgy, coal mine, mineral dressing, building material, chemical, grinding, etc.
Working principle of Electromagnetic Vibrating Feeder:
1).There are two eccentric shafts rotating at high speed at the same time from opposite directions, thus the strong centrifugal force is formed.
2).The component forces of centrifugal force along the vibrating direction will always overlap each other, then counteract with that of vertical force from vibrating direction, then exciting force along single direction is formed to drive the feeder vibrate along straight line.
3).When materials are fed into the feeder, they may be thrown up and move like para curve, then fall down. The materials will move forward on the slope surface of the feeder.
1).It is used to transfer the large size materials and granular materials from hopper to receiving device uniformly, periodically and continuously in the production flow and to feed materials into the crusher continuously and uniformly also to screen the materials in the sandstone production line.
2).The vibrating feeder is widely used to match the crushing and sieving equipments in many industries including metallurgy, coal mine, mineral dressing, building material, chemical, grinding, etc.
Working principle of Electromagnetic Vibrating Feeder:
1).There are two eccentric shafts rotating at high speed at the same time from opposite directions, thus the strong centrifugal force is formed.
2).The component forces of centrifugal force along the vibrating direction will always overlap each other, then counteract with that of vertical force from vibrating direction, then exciting force along single direction is formed to drive the feeder vibrate along straight line.
3).When materials are fed into the feeder, they may be thrown up and move like para curve, then fall down. The materials will move forward on the slope surface of the feeder.
Main Technical Parameters:
Item
Model
|
Feeding capacity
(t/h)
|
Max.allowed input size
(mm)
|
Power
(kw)
|
Voltage
(v)
|
Current
(a)
|
Double amplitude
(mm)
|
Clearance
(mm)
|
Total weight
(kg)
|
GZ1
|
5
|
50
|
60
|
220
|
1≤
|
1.75
|
1.9-2.2
|
75
|
GZ2
|
10
|
60
|
150
|
220
|
2.3≤
|
1.75
|
1.9-2.2
|
155
|
GZ3
|
25
|
70
|
200
|
220
|
3.8≤
|
1.75
|
1.9-2.2
|
225
|
GZ4
|
50
|
100
|
450
|
220
|
7≤
|
1.75
|
1.9-2.2
|
460
|
GZ5
|
100
|
150
|
650
|
220
|
10.6≤
|
1.75
|
1.9-2.2
|
656
|
Note: The technical parameters above are just for your reference. If there is any change, all parameters and overall dimension are subject to operating instructions. Any questions please feel free to contact us.