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Grain separator
Appointment
The separator is designed to clean grain crops from large and small impurities. Different levels of purification are achieved using appropriate sieves.
Characteristic
- The electrical equipment of the separator is designed to operate from an alternating current mains voltage of 380/220 V with a frequency of 50 Hz.
- Operating temperature range from minus 30 °C to plus 40 °C with relative air humidity up to 80%.
- The first start should be carried out without load for 10-15 minutes.
- When restarting after shutdown, the sieve body must be completely stopped to prevent resonance.
|
Parameter name |
Parameter value |
|
Productivity, t/h |
to 6 |
|
Nominal surface of the sieve body, mm. |
800 |
|
The angle of inclination of the surface of the sieve body, mm. |
7.5 |
|
Rotation speed (rpm) |
300, 400, 500 |
| Power (with fan), kW | 2,2 + 0,2 х 2 |
|
Required suction air volume (m3/min.) |
35 |
|
Required air volume for supply box (m3 /min) |
16 |
|
Weight, kg |
600 |
|
Dimensions (LxWxH), mm. |
2150x1200x1460 |
|
Name of raw materials |
Upper sieve, type, size, mm. |
Bottom sieve (underseeding), type, size, mm. |
|
Rapeseed |
round cell ø5 |
longitudinal cell 0.7x10 |
|
Soybean |
round cell ø8-10 |
longitudinal cell 1x10 |
|
Sunflower |
longitudinal cell 8x10 |
longitudinal cell 1x10 |
Device
The separator consists of a feeding hopper, a frame, a sieve body, and a transfer device. The separator is a combination of sieves and has different movement paths. The speed of the cage can be changed by changing the position of the V-belt on the pulley.
The principle of operation
The separator is a combination of sieves and has different trajectories of movement. Separation is achieved by rotation and reciprocation using aerodynamic, gravitational and vibration properties to separate and classify grain according to specific parameters.
The process of grain cleaning in the separator occurs as follows:
- The grain mixture evenly enters the sieve frame through the feed hopper. The upper sieve screens out large impurities. They are unloaded through the side exit, and the grain crops spill onto the lower sieve.
- On the lower sieve, the mixture is separated into small impurities and grain with light impurities.
- Small impurities are removed through the lower outlet.
- At the outlet of the separator, a mixture of grain and light impurities enters the suction separating channel, light impurities are sucked out, and clean grain is poured out through the lower part.
Advantages
- High cleaning efficiency: separators are capable of removing up to 99% of impurities and defective grains, which makes it possible to obtain high-quality grain and oilseeds for subsequent processing.
- Saving time and resources: separators allow you to quickly and efficiently clean grain from impurities, which reduces processing time and reduces costs.
- Ability to adjust cleaning parameters: Most modern separators have the ability to configure various cleaning parameters, which allows you to adapt the equipment to different types of grain and operating conditions.
- Easy to use and maintain: The separators have a simple design, which makes them easier to operate and maintain.
- Reliability and durability: separators are made of durable materials and have a reliable design, which ensures their durability and stable operation over a long period of time.
- For smooth and continuous operation.
The separator is designed to clean grain crops from large and small impurities. Different levels of purification are achieved using appropriate sieves.
- The electrical equipment of the separator is designed to operate from an alternating current mains voltage of 380/220 V with a frequency of 50 Hz.
- Operating temperature range from minus 30 °C to plus 40 °C with relative air humidity up to 80%.
- The first start should be carried out without load for 10-15 minutes.
- When restarting after shutdown, the sieve body must be completely stopped to prevent resonance.
|
Parameter name |
Parameter value |
|
Productivity, t/h |
to 6 |
|
Nominal surface of the sieve body, mm. |
800 |
|
The angle of inclination of the surface of the sieve body, mm. |
7.5 |
|
Rotation speed (rpm) |
300, 400, 500 |
| Power (with fan), kW | 2,2 + 0,2 х 2 |
|
Required suction air volume (m3/min.) |
35 |
|
Required air volume for supply box (m3 /min) |
16 |
|
Weight, kg |
600 |
|
Dimensions (LxWxH), mm. |
2150x1200x1460 |
|
Name of raw materials |
Upper sieve, type, size, mm. |
Bottom sieve (underseeding), type, size, mm. |
|
Rapeseed |
round cell ø5 |
longitudinal cell 0.7x10 |
|
Soybean |
round cell ø8-10 |
longitudinal cell 1x10 |
|
Sunflower |
longitudinal cell 8x10 |
longitudinal cell 1x10 |
Device
The separator consists of a feeding hopper, a frame, a sieve body, and a transfer device. The separator is a combination of sieves and has different movement paths. The speed of the cage can be changed by changing the position of the V-belt on the pulley.
The separator is a combination of sieves and has different trajectories of movement. Separation is achieved by rotation and reciprocation using aerodynamic, gravitational and vibration properties to separate and classify grain according to specific parameters.
The process of grain cleaning in the separator occurs as follows:
- The grain mixture evenly enters the sieve frame through the feed hopper. The upper sieve screens out large impurities. They are unloaded through the side exit, and the grain crops spill onto the lower sieve.
- On the lower sieve, the mixture is separated into small impurities and grain with light impurities.
- Small impurities are removed through the lower outlet.
- At the outlet of the separator, a mixture of grain and light impurities enters the suction separating channel, light impurities are sucked out, and clean grain is poured out through the lower part.
- High cleaning efficiency: separators are capable of removing up to 99% of impurities and defective grains, which makes it possible to obtain high-quality grain and oilseeds for subsequent processing.
- Saving time and resources: separators allow you to quickly and efficiently clean grain from impurities, which reduces processing time and reduces costs.
- Ability to adjust cleaning parameters: Most modern separators have the ability to configure various cleaning parameters, which allows you to adapt the equipment to different types of grain and operating conditions.
- Easy to use and maintain: The separators have a simple design, which makes them easier to operate and maintain.
- Reliability and durability: separators are made of durable materials and have a reliable design, which ensures their durability and stable operation over a long period of time.
- For smooth and continuous operation.
Advantages of the equipment
Robust construction
Stable and reliable production
Maximum efficiency
Easy to operate
Easy maintenance
It will save space
Low maintenance costs
Long service life
