RU2681493C1 - Air-sieve grain cleaning machine - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to the grain cleaning equipment and can be used in agriculture for the seeds sorting. Air-sieve grain cleaning machine includes upper and lower sieve pans, connected to the fan sediment chamber, preliminary and final aspiration pneumatic channels, feeding roller and the heavy and light impurities removal augers. At the lower sieve pan end under the final aspiration vertical pneumatic channel opening, dividers are installed, located at an angle of 40–45 ° in the horizontal plane. Dividers are made in the form of combs, which teeth have the shape of a truncated cone. Cone upper base is 1/3 of the cone lower base, which has openings for its attachment to the lower sieve pan. From the sides the divider teeth have oppositely directed sides, which height is 1/4 of the final aspiration pneumatic channel width. Divider cone upper base has a width equal to 5–6 sizes of the seed width.

EFFECT: grain cleaning machine provides improved quality of the sunflower seeds pile separation.

1 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to grain cleaning equipment and can be used in agriculture for sorting oilseeds, for example sunflower seeds.

A device for feeding a grain mixture into a pneumatic separation channel of a grain cleaning machine according to US Pat. 2385777 C1, cl. B07B 4/02, B02B 1/02, 2010, comprising a vertical air separation channel with a transverse window for introducing the material to be separated and a valve.

A disadvantage of the known device is the collision, and the overlapping trajectories of the components of the grain mixture in the vertical air flow leading to an ineffective process of separation.

Closest to the claimed technical solution is a secondary cleaning machine for sunflower seeds according to US Pat. 172915 U1, class A01F 12/44, 2017, taken as a prototype, including an upper sieve mill, in which a tray for removing seeds to the lower mill, a common sedimentation chamber connected to a fan, pneumatic channels for preliminary and final cleaning, a feed roller, a valve are attached to its lower part , augers for the withdrawal of heavy and light impurities, dampers for fine adjustment of the pneumatic channel of the preliminary and final aspiration, dampers for coarse adjustment of the air supply, exhaust pipe, estrus, according to a utility model, a tray for removing seeds to Nij mill is at an angle 40-45 ° to the horizontal in a vertical air channel final aspiration and made of a material with low friction coefficient, for example of polytetrafluorethylene.

The disadvantage of this machine is the low quality of separation of the heap of sunflower seeds, due to the receipt of a continuous stream of heaps in the pneumatic channel of the final aspiration, which leads to the fact that the vertical air stream is not able to blow it.

The technical result of the invention is to improve the quality of separation of the heap of sunflower seeds in the pneumatic channel of the final aspiration.

The technical result is achieved by the fact that the air-sieve grain cleaning machine containing the upper and lower sieve mills, a common sedimentary chamber connected to the fan, pneumatic channels for preliminary and final aspiration, a feed roller, a valve, screws for outputting heavy and light impurities, fine adjustment valves for pneumatic preliminary and final aspiration channel, coarse air adjustment flap, exhaust pipe, estrus, according to the invention, at the end of the lower sieve mill, under Versters of the vertical pneumatic channel of the final aspiration are equipped with dividers, the inner surface of which is coated with a low coefficient of friction, for example of fluoroplastic, in an amount of at least three, located at an angle of 40-45 ° in the horizontal plane, while they are made in the form of combs, the teeth of which have the shape of a truncated cone, the upper base of which is 1/3 of the lower, and the angle in the upper base of the cone is 20-30 °, and the lower base of the cone has holes for attaching it to neither it sieve box, the deflector teeth on the sides are opposing skirting, whose height is 1/4 of the pneumatic aspiration final channel width and the upper base of cone deflector has a width equal to the width size 5-6 seeds.

A comparative analysis of the claimed technical solution with the prototype allows us to conclude that the claimed air-sieve grain cleaning machine differs from the known machine in that due to the design features, an improvement in the quality of separation of the heap of sunflower seeds in the pneumatic channel of the final aspiration is achieved, which is impossible to obtain by known technical solutions.

Thus, the claimed technical solution meets the criteria of patentability NOVELTY.

The claimed technical solution meets the patentability criterion INDUSTRIAL APPLICABILITY, because relates to agricultural machinery, namely to grain cleaning equipment and can be used in agriculture for sorting oilseeds, for example sunflower seeds.

The invention is illustrated in the drawing, where in FIG. 1 shows an air-sieve grain cleaning machine MVU-1500 - general view, in FIG. 2 shows an enlarged image of the location of the divider - view A, in FIG. 3 shows a divider - a general view.

Air-sieve grain cleaning machine (Fig. 1), contains an upper sieve mill 1, a lower sieve mill 2, a common sedimentary chamber connected to a fan (not shown), a pneumatic channel 3 of the preliminary suction, pneumatic channel 4 of the final suction, the feed roller 5, valve 6, screw 7 for outputting heavy impurities, screw 8 for outputting light impurities, damper 9 for fine adjustment of the pneumatic channel of the preliminary aspiration, damper 10 for fine adjustment of the pneumatic channel of the final aspiration, damper 11 for coarse adjustment air supply, exhaust pipe 12, estrus 13. At the end of the lower sieve mill, under the opening of the vertical pneumatic channel of the final aspiration, dividers 14 are installed (Fig. 2), the inner surface of which has a coating with a low coefficient of friction, for example of fluoroplastic, in an amount not less than three, located at an angle of 40-45 ° in the horizontal plane. At least three dividers have been installed because the width of the pneumatic channel of the final suction is approximately 1500 mm and, based on structural considerations and the metal consumption, we obtain a divider length of 500 mm. The dividers 14 (Fig. 3) are made in the form of combs, the teeth 15 of which have the shape of a truncated cone, the upper base of which is 1/3 of the lower. Based on design considerations, with a divider length of 500 mm, we get the number of four teeth, each of which is 125 mm. Moreover, the angle in the upper base of the cone is 20-30 °, and the lower base of the cone has holes for its fastening to the lower sieve mill 2. The teeth of the divider 14 on the sides have opposite sides 16, the height of which is 1/4 of the width of the pneumatic channel 4 of the final aspiration, and the upper base of the cone of the divider 14 has a width equal to 5-6 sizes of the width of the seeds. The width of the upper base of the divider cone is 5-6 sizes of the width of the seed, because with an average seed width of 7 mm, we get the size of this base - 42 mm, that is, about 5 to 6 sunflower seeds are placed in the upper base of the cone.

The technological process of the air-sieve grain cleaning machine when sorting sunflower seeds is as follows.

The seed material is fed into the receiving chamber, where it evenly spreads across the gap between the valve 6 and the feed roller 5. Then, along the inclined slopes, the material is sent to the upper mill 1 for sieve cleaning (Fig. 1).

On the way after the feed roller 5, the seed material is blown through the air stream of the pneumatic channel 3 of the preliminary aspiration, where light impurities are separated: the floor, parts of the leaves, seed shells, dust.

These impurities auger 8 output light impurities are removed from the sedimentary chamber of the machine. Air containing dust through the exhaust pipe 12 of the machine is sent for further cleaning.

After cleaning on the upper sieve mill 1 from large and small impurities, the seeds are sent along the slopes to the lower sieve mill 2 for further sorting. They are divided into two equal parts, of which one goes to the upper tier of the sieves, the second to the lower.

Large and small impurities - waste along the inclined chutes 13 are removed from the machine.

The cleaned material from the upper and lower tiers of the sieves of the lower mill 1 and 2, respectively, enters the teeth 15 of the divider 14 (Fig. 3), on the inner surface of which the material slides, accelerates, and acquires an increased input speed. At the same time, the entire material flow is stratified into separate jets, thereby making it easily accessible for blowing it with a vertical air stream. Next, the divided material into separate jets enters the pneumatic channel 4 of the final aspiration. Here, heavy and clean sunflower seeds fall down to the outlet and are brought out of the machine, and light and puny seeds are fed with an ascending air flow into the upper part of the pneumatic channel 4 of the final aspiration, where they are deposited and removed by the screws 7 and 8 in the expansion part.

Performing technological operations in an air-sieve grain cleaning machine will improve the quality of separation of a heap of sunflower seeds in the pneumatic channel of the final aspiration and thereby increase its productivity.

Claims (1)

An air-sieve grain cleaning machine comprising upper and lower sieve mills, a common sedimentary chamber connected to a fan, pneumatic channels for preliminary and final suction, a feed roller, a valve, screws for outputting heavy and light impurities, fine adjustment valves for the pneumatic channel for preliminary and final suction, rough air control flap, exhaust pipe, estrus, characterized in that at the end of the lower sieve mill, under the hole of the vertical pneumatic chamber of the final aspiration channel, dividers are installed, the inner surface of which has a coating with a low coefficient of friction, for example of fluoroplastic, in an amount of at least three, located at an angle of 40-45 ° in the horizontal plane, while they are made in the form of combs, the teeth of which have the shape of a truncated cone, the upper base of which is 1/3 of the lower, and the angle in the upper base of the cone is 20-30 °, and the lower base of the cone has holes for its fastening to the lower sieve mill, the teeth of the divider with b the shafts have opposite sides, the height of which is 1/4 of the width of the pneumatic channel of the final aspiration, and the upper base of the cone of the divider has a width equal to 5-6 sizes of the width of the seed.

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