RU2278745C1 - Method and device for aeromechanical separation of grain materials into fractions - Google Patents

Abstract

FIELD: separating solids from solids.

SUBSTANCE: method comprises feeding grain material and air separately, control of the flow rate of the grain material and air, generating air-grain flow, separating the flow over the solid curved surfaces permeable for grain material and air into the top air-grain flow that initially flows over the top solid curved sloped surface in the direction of the air flows and then flows counter to the air flow over this surface to the bottom solid curved surface and bottom air-grain flow. The light fractions of the grain material are washed out from the top air-grain flow and transported to the settling chamber. The method is realized with the use of the device for aeromechanical separation of grain materials.

EFFECT: enhanced efficiency and reduced explosion hazard.

2 cl, 1 dwg

Description

The invention relates to the separation of grain materials into light and heavy fractions and can be used in the grain processing industry.

A known method of aeromechanical separation of grain materials, including the supply of grain material, as well as the upper and lower flat jets of air flow to the oscillating solid curved surface of the separation chamber, having variable radius of curvature and roughness, with areas of permeability to air, formation of the aerosol mixture, the effect on the aerosol mixture an aerofoil, which is obtained by applying a lower plane stream of air flow to a solid curved surface having variable radii with curvature and roughness, moving the grain material along this surface, separating the grain material into fractions and their output during the decay of the aerofilm, separation of the components of the grain material from the solid curved surface and their movement in the vortex-free airspace of the separation chamber (see RF patent No. 2148441, IPC 7 V 07 V 4/00, 7/04).

The disadvantages of this method are the limited scope due to the lack of the possibility of using light fine-grained grain materials for separation, which will fly along different trajectories in the volume of the separation chamber without interacting with an aerofoil and a solid curved surface; lack of separation efficiency due to the rapid disintegration of the aerofilm and its low ability to transfer mass of grain material, which helps to increase the size of the machine that implements the method, and its metal consumption; high energy required to lift the aerosol mixture over a solid curved surface, and the interaction of the components of the grain material with a solid curved surface.

Closest to the proposed invention in terms of technical nature and the achieved result (prototype) is a method of aeromechanical separation of grain materials, including the supply of grain material and air flow to an oscillating solid curved surface having a variable radius of curvature permeable to grain material and air, the formation of an aerosol mixture and withdrawal of fractions of grain material. The air flow is additionally supplied from above and from below to opposite oscillating solid curved surfaces of the separation chamber having variable radii of curvature permeable to grain material and air, and form an aerosol mixture. After the formation of the aerosol mixture, which is affected by the individual air jets of the air flow obtained by applying the air flow from above and below to the indicated oscillating solid curved surfaces, its greatest acceleration occurs and preliminary separation of the aerosol mixture into the flows of grain material moving in closed air volumes bounded above and below. The heavy and light fractions of the grain material acquire different motion paths at different heights from solid curved surfaces. The trajectory of movement of light fractions is directed upward relative to solid curved surfaces and along separate closed air variable volumes. Light fractions are led down through the sedimentation chamber from solid curved surfaces. Grain, as heavier fractions, overcoming the aerodynamic drag of the air jets directed from below, undergoes additional cleaning from light weeds and light grain impurities, and it is brought down through the sedimentation chamber from solid curved surfaces (see RF patent No. 2206414, IPC 7 V 07 V 4/02).

The disadvantages of this method are the low separation efficiency due to the short-term effect of the air flow on the grain material, which worsens the preliminary separation and separation of the grain material, as well as increased explosion hazard due to the accumulation of a significant amount of dust inside closed variable volumes.

A device for aeromechanical separation of grain materials, containing a channel for supplying grain material, a device for separating grain material, made in the form of a vertical channel, a source of air flow movement, made in the form of a fan, sedimentary chamber, divided into two parts. The device for separating grain material is equipped with a gravity pipe for grain and is connected to a channel for feeding grain material, a sedimentation chamber and a horizontal duct. The smaller part of the sedimentary chamber is intended for the deposition of heavy fractions of the grain material, and the larger part of the sedimentary chamber is intended for the deposition of light fractions of the grain material. The latter is connected through a vertical duct, into which the remaining dust in the air and larger, but lighter fractions, a fan and a horizontal duct are sent with a device for separating grain material. In this case, a device for separating grain material, a sedimentary chamber through a vertical and horizontal ducts with a fan formed a closed air-recirculation path (see Malis A.Ya., Demidov AR Machines for cleaning grain by air flow. - M., 1962, p.135).

The disadvantages of this device are the low separation efficiency due to the use of devices for separating grain material, made in the form of a vertical channel, in which the grains are short time with a significant collision with each other, as well as significant dimensions.

Closest to the proposed invention by technical essence (prototype) is a device for aeromechanical separation of grain materials, containing a channel for supplying grain material, a source of air flow connected through an air duct with a louvre drum, a permeable solid curved surface located between the grain material and air, located between a channel for feeding grain material and a louvre drum and made in the form of a system of vibrational planes, a device for air flow into separate jets and separation of the grain material, mounted above the sedimentation chamber for heavy fractions of the grain material, located under a solid curved surface, permeable to grain material and air, sedimentation chamber for light fractions of the grain material, mounted under the louvre drum in the output device light fractions. The device for separating the air flow into separate jets and separating the grain material is made in the form of a system of channels with a variable volume connecting the channel for feeding the grain material and the device for outputting light fractions. Channels with a variable volume are bounded from above by guide vanes spanning along the generatrix sector of the rotating blades of the source of air flow, and are bounded from below by a system of vibrational planes. The sedimentation chamber for heavy fractions of the grain material is made in the form of vibroplanes, creating a surface impervious to the grain material and air. A closed air-recirculation path is formed through a channel for supplying grain material, an area for placing rotating blades, a sedimentation chamber for heavy fractions, a device for outputting light fractions through a system of channels with a variable volume and an air duct (see RF patent No. 2206414, IPC ⁷ BOB 4/02 )

The disadvantage of this device is the low separation efficiency and increased dimensions of the device due to the short-term effect of the air flow on the grain material and the short residence time of the grain material in the separation zone, which in turn is due to the presence of an accelerating portion of a solid curved surface permeable to grain material and air, and systems of channels with a variable volume, worsening the preliminary separation and separation of grain material; increased explosion hazard due to the accumulation of a significant amount of dust in a closed air-recirculation path.

The proposed inventions solve the problem of increasing the efficiency of separation of grain materials and reduce the risk of explosion.

To obtain such a technical result in the proposed method of aeromechanical separation of grain materials into fractions, including the supply of grain material and air flow to a solid curved surface permeable to grain material and air, the withdrawal of fractions of grain material down through sedimentary chambers from a solid curved surface permeable to grain material and air, with an additional supply of air flow from above, the supply of grain material and air flow is carried out separately flax by regulating the flow of grain material and air flow, as well as the kinematic parameters of the latter. In this case, an aerosol flow is obtained, which separates when moving along solid curved surfaces permeable to grain material and air, to the upper aerosol flow, first moving along the upper hard curved sloping surface in the same direction as the air flow, and then moving in countercurrent to the air flow along this surface onto the lower hard curved surface, and the lower aerosol flow, moreover, the light fractions of the grain material are washed out from the upper aerosol flow transporting the sediment in the chamber.

To achieve the named technical result, a device for aeromechanical separation of grain materials into fractions, containing a channel for supplying grain material, a source of air flow connected to the louvre drum via an air duct, a permeable solid surface curved for grain material and air, located between the channel for feeding grain material and a louvre drum, a sedimentation chamber for heavy fractions of grain material located below this surface, and a wasp a daughter chamber for light fractions of grain material, mounted under the louvre drum, is equipped with a channel for supplying air flow located parallel to the channel for supplying grain material and separated from it by a permeable partition, which is designed to control the flow of grain material and the direction and flow rate of air flow, solid curved a pitched surface permeable to grain material and air, placed above a perpendicular to grain material and air solid curvilinear th surface and the frame is installed in the duct with the filter cloth.

The method of aeromechanical separation of grain materials into fractions and a device for its implementation are based on a longer effective interaction of the grain material and the air flow due to the formation of aerosol flows passing from the upper hard curved pitched surface in countercurrent to the air flow along this surface to the lower solid curved surface, and on the differentiated effect of the kinetic energy of individual particles on the trajectory of their motion.

Increasing the efficiency of separation of grain materials is provided by increasing the time of exposure of the air flow to the grain material, firstly, due to the initial interaction of the incoming air flow and grain material when it enters the device when receiving the aerosol flow, and secondly, due to the movement of the grain flow along the upper solid curved pitched surface and the bottom hard curved surface, permeable to grain material and air.

Reducing the explosion hazard is achieved by the lack of the possibility of dust accumulation inside closed variable volumes when installed in the path of air flow along a closed recirculation path formed by a channel for feeding grain material, a source of air flow, a sediment chamber for heavy fractions, a device for removing light fractions through a channel system and air ducts, frames with filter cloth.

The invention is illustrated by a drawing, which shows a diagram of a device for aeromechanical separation of grain materials into fractions, which implements the method of aeromechanical separation of grain materials into fractions.

The method of aeromechanical separation of grain materials into fractions is as follows.

Grain material and air flow are supplied separately, controlling the flow of grain material and air flow, as well as the kinematic parameters of the air flow. Additionally serves the air flow from above. In this case, an aerosol flow is obtained, which separates when moving along hard curved surfaces permeable to grain material and air, to an upper aerosol flow, first moving with acceleration along an upper hard curved sloping surface permeable to grain material and air, in the same direction as the air flow and then moving in countercurrent to the air flow along this surface to the lower hard curved surface, permeable to grain material and air, and the lower aerosols oh stream.

The aerodynamic drag force changing in a certain direction, the friction force, and, consequently, the resulting force acting on the particles of the grain material, sets them the direction, speed and trajectory of movement. Thus, the heavy and light fractions of the grain material acquire different motion paths at different heights from solid permeable curved surfaces. The trajectory of the light fractions is directed upward relative to solid curved surfaces with the output through the corresponding sedimentary chamber. Grain, as heavier fractions, reverses the trajectory of movement; at the same time, overcoming the aerodynamic drag of the air jets directed from below, it undergoes additional purification from light weeds and light grain impurities, and it is transported as light fractions of the grain material into the corresponding sedimentary chamber by leaching from the upper aerosol stream.

A device for aeromechanical separation of grain materials into fractions contains a channel 1 for supplying grain material, located parallel to the channel 2 for supplying air flow and separated from it by a permeable partition 3, which is designed to control the flow of grain material and the direction and flow rate of air flow 4, in particular a fan . The source of movement of the air stream 4 is connected to the louvre drum 5 by means of an air duct 6, in which a frame 7 with a filter cloth 8 is installed to clean the exhaust air from dust moving to the source of movement of the air stream 4. A permeable channel is placed between the channels 1, 2 and the louvre drum 5 for grain material and air, a solid curved surface 9, above which there is a solid pitched curved surface 10, permeable to grain material and air. Surfaces 9,10 and partition 3 can be made of separate planes that change position when passing grain material and air.

Under the solid curved surface 9, a sedimentation chamber 11 for heavy fractions of the grain material is installed. In the device 12 for outputting light fractions of the grain material under the louvre drum 5, a sedimentation chamber 13 for light fractions of the grain material is placed. Channel 14 is designed to transport light fractions from the separation zone 15, which separates the air flow and separates the grain material. The separation zone 15 is a system of channels formed by the inclined planes of the permeable septum 3, permeable to the grain material and air by a solid curved ramp surface 10, permeable to the grain material and air by a solid curved surface 9. The removal of heavy fractions of the grain material from the sedimentation chamber 11 and the withdrawal of light fractions grain material from the sedimentation chamber 13 are provided by means of vibrators 16 and 17, respectively.

In addition, the arrows in the drawing indicate the direction of entry of 18 grain material into channel 1, intake of 19 air into channel 2, output of 20 heavy fractions of grain material, output of 21 light fractions of grain material.

A device for aeromechanical separation of grain materials into fractions works as follows. The grain material is fed in the direction 18 to channel 1, and the air flow - in the direction 19 to channel 2. The aerosol stream formed from the grain material and the air stream is directed to the separation zone 15. Under the influence of aerodynamic forces, gravity and friction, the grain material moves along the planes of the surfaces 9, 10. When moving from one plane to another, it is blown through by the air flow, while the heavier material, moving at a higher speed and having more kinetic energy, moves to a greater the distance along the hard curved surface 9, and the light fractions when blowing the grain through the air stream are carried into the sedimentation chamber 13 through the channel 14, then they are discharged in the direction 21 with the help of a vibrator 17. Heavier grain moves down from the top hard curved sloping surface 10 on the grain material, again blown by the air flow. Next, the heavy fractions of the grain material enter the sedimentation chamber 11 and are discharged by means of a vibrator 16 in the direction 17.

The air stream, freed from light fractions, enters the louvre drum 5 and then through the air duct 6 is fed to the source of movement of the air stream 4, after passing through dust cleaning on the frames 7 with filter cloth 8.

The proposed invention allows for one pass to get grain purified from light weed impurities up to 100% and from light grain impurities over 60%. In addition, explosion safety increases significantly in the absence of the possibility of accumulating a significant amount of dust inside closed variable volumes.

Claims (2)

1. The method of aeromechanical separation of grain materials into fractions, including the supply of grain material and air flow to a solid curved surface permeable to grain material and air, and the withdrawal of fractions of grain material down through sedimentary chambers from a solid curved surface permeable to grain material and air, with additional air flow from above, characterized in that the supply of grain material and air flow is carried out separately, regulating the flow of grain mate rial and air flow, as well as the kinematic parameters of the latter, this gives an aerosol flow that separates when moving along solid curved surfaces, permeable to grain material and air, into an upper aerosol flow, first moving along the upper hard curved sloping surface in the same direction as the air flow, and then moving in countercurrent to the air flow along this surface to the lower solid curved surface, and the lower aerosol stream, and produce washed e aerozernovogo flow from the upper light fractions grain material with transportation of the sediment in the chamber. 2. Device for aeromechanical separation of grain materials into fractions, containing a channel for supplying grain material, a source of air flow connected to the louvre drum by means of an air duct, a perpendicular to the grain material and air solid curved surface located between the channel for supplying grain material and the louvre drum , a sedimentation chamber for heavy fractions of grain material located below this surface, and a sedimentation chamber for light fractions of grain material Ala installed under the louvre drum, characterized in that it is provided with a channel for supplying air flow, located parallel to the channel for supplying grain material and separated from it by a permeable partition, which is designed to control the flow of grain material and the direction and flow rate of the air flow, solid curved a surface permeable to grain material and air, placed above a permeable to grain material and air solid curved surface, and in uhovode mounted frame with a filter cloth.