RU2462318C1 - Aspiration grain cleaner - Google Patents

Abstract

FIELD: process engineering. ^ SUBSTANCE: invention relates to grain and loose materials separation equipment, particularly, to pneumatic sizing of loose materials by their aerodynamic properties. It may be used for grain cleaning in agriculture or in production of construction materials, etc. Proposed machine comprises aspiration chamber and initial material loading device. Said loading device represents a plate, its length making at least 300 mm, arranged at angle to normal speed of material vertical motion along bin wall and comprising inclined webs, their height h not exceeding 20 mm. Said inclined webs are arranged at loose mix natural slope angle å to said plate that exceeds or equals angle of plate inclination to horizontal plane to satisfy the relationship arcsin(S/K)ëñarcos(f/L), where S is the length of adjacent leg of plate inclination to horizontal plane ; K is plate width; f is distance between inclined webs, and L is inclined web length. U-like flaps made from sheet steel are arranged at aspiration chamber inlet parallel with each other. ^ EFFECT: higher quality of separation. ^ 4 cl, 4 dwg

Description

The invention relates to techniques for separating grain and other bulk materials by air flow, in particular to machines for separating bulk materials by air flow according to aerodynamic properties, and can find application in grain cleaning in agriculture, in the building materials industry and other fields.

A known separator for cleaning grain, including an aspiration channel installed at an angle to the horizontal plane, a grain hopper, a slot for feeding grain from the hopper to the suction channel, and also an elbow mounted on the upper end of the suction channel for feeding waste into the sedimentation chamber (SU 848088 , 07/23/1981).

In this separator, grain flows from the hopper into the suction channel in the form of a dense jet with a high vertical speed. The air flow is not able to push all particles of the impurity through the grains located close to each other, especially since the time of the impact of the flow on the grain mixture is limited due to the high rate of grain fall. It is impossible to improve grain blowing by increasing air speed, since in this case the grain will rise by air flow to the knee in the upper part of the suction channel and be carried away into the sedimentation chamber together with the waste.

A known separator for cleaning grain, including an aspiration channel installed at an angle to the horizontal plane, and a device for feeding grain into the suction channel, made in the form of a slit with a partition separating the stream into two jets (SU 1313526, 05/30/1987).

In this separator, the grain blowing is improved very slightly, since the partition has a small thickness and the grain jets are located close to each other.

The closest in technical essence to the claimed invention is selected as a prototype pneumatic separator (RU 2387490, 04/27/2010).

The pneumatic separator includes an aspiration channel installed at an angle to the horizontal plane, a hopper for the source material located above the channel with a device for supplying the source material to the suction channel. An elbow is installed at the upper end of the duct connecting it to the dust separator and fan. The wall of the inner radius of the knee enters the suction channel, blocking part of its cross section. The device for supplying material is made in the form of several flaps mounted with the possibility of rotation around horizontal axes and located one above the other along the wall of the hopper adjacent to the suction channel. On the axes of the valves are fixed levers, interconnected by a rod equipped with a device for fixing. The width of the wings is carried out depending on the distance between the axles. The protrusion inside the suction channel formed by the knee wall prevents the removal of the heavy fraction into the dust separator. This allows you to increase the air velocity in the suction channel and thereby improve the quality of separation of heavy and light fractions of granular material. The protrusion inside the suction channel also improves the operation of the dust separator, since light particles protrude towards the outer wall of the dust separator with a protrusion, which reduces the possibility of them entering the fan. By turning the flaps for supplying the source material around the horizontal axis, it is possible to reduce the feed rate, this increases the exposure time of the air flow to the bulk material and, accordingly, improves the quality of fraction separation. The location of several valves one above the other along the wall of the hopper adjacent to the suction channel allows you to distribute bulk material in a large volume of the suction channel.

Studies of the operation of such a pneumatic separator showed that the speed and uniformity of the air distribution in the channel near the front wall where the grain material is introduced is not high enough for the effective removal of light particles due to the high resistance of the relatively dense grain flow, while the opposite wall, where the grain the jet has already been distributed in height to an easily blown stream, the air velocity is too high, which leads to the removal of an increased amount of high-grade grain along with the light component.

In this regard, the performance of the seed cleaning machine is increased mainly due to the width of the channel, an increase in dimensions, which determines the large dimensions of the machines, the difficulty of uniform loading across the channel width, a decrease in the separation efficiency of grain material in comparison with machines with lower productivity.

The problem to which the proposed invention is directed, is to create such a design of the suction grain cleaning machine, which would take into account the above disadvantages.

The technical result achieved by the implementation of this invention is to improve the quality of separation of the heavy and light fractions of bulk materials while maintaining uniform distribution of air flow velocity and the efficiency of separation of grain material in the suction chamber due to the stabilization of the density of the processed grain flow.

The specified technical result in an aspiration grain cleaning machine for separating bulk materials by air flow according to aerodynamic properties, including an aspiration chamber and a feed device for feeding the starting material, is achieved by the fact that the charging device for feeding the source material is made in the form of a plate with a length H of at least 300 mm, located at an angle to the normal component of the velocity of the vertical movement of the material along the wall of the hopper and containing inclined partitions, with a height h equal to oh no more than 20 mm.

The inclined partitions are located to the plate at an angle φ (deg.) Of the natural slope of the granular mixture, which is greater than or equal to the angle β (deg.) Of the inclination of the plate to the horizontal plane and satisfies the ratio arcsin (S / K) ≤arcos (f / L), where

S (mm) is the length of the adjacent leg of the plate inclining to the horizontal plane β;

K (mm) is the width of the plate;

f (mm) is the distance between the inclined partitions;

L (mm) - the length of the inclined partition.

U-shaped flaps made of sheet steel and parallel to each other are installed on the incoming sections of the suction chamber.

U-shaped valves are sequentially located one above the other along the inlet section of the suction chamber.

The use of U-shaped flaps installed on the inlet sections of the suction chamber improves the separation process, provides a slight increase in the efficiency of separation of grain material due to the fact that the U-shaped flaps parallel to each other, having resistance to air flow, contribute to a certain equalization of its speed along the length of movement of the falling material, and a plate with inclined partitions contributes to a significant increase in the distance between the particles of the material and effective scheniyu material due to the dense stream moving with high vertical speed, which facilitates removal of the light fraction and a significant lengthening of the residence time of the starting material (heap) on the surface effects the ascending air flow and thus enhances the quality of the separation of fractions.

The invention is illustrated by drawings, where figure 1 shows a General view of an aspiration grain cleaning machine; figure 2 - loading hopper of an aspiration grain cleaning machine; figure 3 - plate with inclined partitions; figure 4 - U-shaped sash.

The suction grain cleaning machine contains an aspiration chamber 1, a knee wall 2, an unloading screw for outputting the lungs of fraction 3, a pulley for driving the rotation screw of the outlet for lungs of fraction 4, a control handle for the pressure control valve in the suction system 5, a discharge valve in the suction system 6, and an outlet channel 7 connected soft connection (not shown) to a low-pressure fan (not shown), U-shaped flaps 8 made of sheet steel, sequentially located one above the other along the inlet section 14 of the suction camera 1, loading device 9 for the source material. The loading device 9 consists of a plate 10 with inclined partitions 15, a divider 11, regulating the separation of grain and the uniform distribution of material in the loading device 9.

When a suction grain cleaning machine works together with equipment for post-harvest grain processing (not shown), an important constructive solution is the need to install a flow valve 12, as well as counterweights 13, on the loading device for uniform output of the pre-cleaned material.

Works suction grain cleaning machine as follows.

The source material to be separated is fed into the loading device 9 and distributed over the plate 10 with inclined partitions 15, which allows us to differentiate the dense layer of the moving mass into separated fractions and increase the residence time of the particles under the action of the suction forces of the ascending air stream. On the plate 10 with inclined partitions 15, the flow of bulk material is decelerated due to the fact that an inactive layer of material is formed on the surface.

Over the plate 10 with inclined partitions 15, a divider 11 is installed to separate the incoming dense layer into two sublayers.

The light fractions are separated by an upward air flow generated by a low pressure fan (not shown).

For a uniform distribution of the ascending air flow at the inlet section of the suction chamber 1, U-shaped flaps 8 are made, made of sheet steel, sequentially located one above the other.

In the aspiration chamber 1, several layers of falling particles are formed, which are easily blown by an upward flow of air, relatively heavy particles are accumulated and brought out (the flow rate decreases) through the discharge screw 3 by a rotating pulley of a rotary drive of the screw for withdrawal of light fraction 4, by a belt drive of an electric motor (not shown) , while the particles of the light fraction through the outlet channel 7 rise up and are carried away in a dust collector installed behind the fan (not shown).

At high air speeds, the particles of the heavy fraction are also carried upward, but under the action of gravity deviate to the lower wall of the suction chamber, hit the protruding wall of the knee 2 and lose speed. After that, they are poured down along the bottom wall of the suction chamber 1, the discharge screw of the withdrawal of light fractions 3.

The vacuum, and hence the air velocity in the suction chamber 1 of the compartment is regulated by the control valve using the control handle 5, which controls the pressure control valve in the suction system 6.

The use of the proposed suction grain cleaning machine can significantly improve the quality of separation of heavy and light fractions of bulk materials in the processing of grain materials of various crops.

Claims (4)

1. An aspiration grain cleaning machine for separating bulk materials by air flow according to aerodynamic properties, including an aspiration chamber and a feed device for feeding the source material, characterized in that the charging device for feeding the source material is made in the form of a plate with a length H of at least 300 mm, located at an angle to the normal component of the speed of vertical movement of the material along the wall of the hopper and containing inclined partitions with a height h of not more than 20 mm. 2. The suction grain cleaning machine according to claim 1, characterized in that the inclined partitions are located to the plate at an angle φ of the natural slope of the granular mixture, which is greater than or equal to the angle β of the inclination of the plate to the horizontal plane and satisfies the ratio arcsin (S / K) ≤arcos ( f / L), where
S is the length of the adjacent leg of the plate inclining to the horizontal plane β;
K is the width of the plate;
f is the distance between the inclined partitions;
L is the length of the inclined partition. 3. The suction grain cleaning machine according to claim 1, characterized in that U-shaped sashes made of sheet steel and parallel to one another are installed on the incoming sections of the suction chamber. 4. The suction grain cleaning machine according to claim 3, characterized in that the U-shaped flaps are sequentially located one above the other along the inlet section of the suction chamber.

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