RU2540547C1 - Planting unit - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: planting unit comprises a housing, a coil in the form of a cylinder with grooves on its surface, and the valve. The coil is made with increased volume of grooves, of wear resistant plastic with antifriction properties. On the valve the bottom is rigidly mounted by means of supports, made in the form of a part of the lateral surface of the cylinder with the front and rear edges and a symmetry axis coinciding with the axis of symmetry of the coil. The bottom has the polished inner surface with the radius greater than the radius of the coil. The front edge of the bottom is inclined along the path of rotation of the coil by the angle of 40-45 degrees down from the horizontal plane of symmetry of the coil and located in the third quadrant parallel to the symmetry axis of the coil. The rear edge of the bottom which is provided with a bevel for throwing seeds, is located in the fourth quadrant and is inclined along the path of rotation of the coil by the angle of 54-58 degrees to the right from the vertical plane of symmetry of the coil. In the housing of the planting unit the shaper-guide is rigidly mounted adjacently to the front edge of the bottom, made in the form of a part of the lateral surface of the cylinder with the axis of symmetry coinciding with the axis of symmetry of the coil. The shaper-guide has a polished inner surface with the radius equal to the radius of the inner polished surface of the bottom. Free upper part of the shaper-guide which is located in the second quadrant parallel to the axis of symmetry of the coil, is inclined along the path of rotation of the coil by the angle of 47-53 degrees to the left from the vertical plane of symmetry of the coil, and a brush is attached to it. The shag of the brush is located on a circle with a radius less than the radius of the coil. The gaps between the coil, the bottom and the shaper-guide are equal to and less than the average minimal thickness of the seeds.

EFFECT: invention enables to provide improvement of uniformity of distribution of seeds, and yield.

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Description

The invention relates to agricultural machinery, in particular to reel sowing apparatus for sowing seeds of agricultural crops.

Known coil metering apparatus [1], comprising a housing, a coil, a coupling with a socket, a vertical shutter with an apron and a tedder, made in the form of a finger and U-shaped brackets fixed to the shaft, while the shutter is pivotally mounted on the housing with the possibility of interaction with the agitator finger through a spring-loaded rod pivotally mounted on it, while the shutter is flanged at the edges.

The disadvantages of the reel seeding apparatus include trauma to the seeds due to the sharp oscillatory movement of the shutter with an apron when the arch is destroyed, as well as the uneven distribution of seeds over the sifting area due to the unstable thickness of the active layer of seeds during operation of the seeding coil, since the shutter with an apron does not exclude the formation active layer, but just a surface along which we move the seed stream already formed by the coil, including the seeds of the active layer and the seeds taken out by the sides of the coil. Difficulty in manufacturing the structure and low reliability (wear of an elastic apron). All this leads to a decrease in crop yields.

Known metering apparatus [2], comprising a housing with upper and lower thresholds, a coil with a clutch and a valve installed therein. The lower threshold is set vertically, its side facing the valve is made curved with the center of radius of curvature at the center of rotation of the valve, and the side forming the first peak of the threshold is at an angle to the horizontal, greater than the angle of repose of the seeds, while the top of the threshold is located below the discharge edge valve.

The disadvantages of this sowing apparatus include the uneven distribution of seeds over the sowing area, with the lower threshold set vertically with the side facing the valve made curved with the center of radius of curvature at the center of rotation of the valve, and the side forming from the first peak of the threshold is located under angle to the horizontal, greater than the angle of repose of the seeds, and at the same time the top of the threshold, located below the edge of the discharge of the valve seeds, does not exclude the formation of an active layer of seeds when sowing the coil, since the lower threshold, located below the edge of the valve seed discharge at the outlet of the sowing apparatus, is only the surface along which the seed stream already formed by the coil moves, including the seeds of the active layer and the seeds carried by the grooves of the coil, and the lower threshold only directs the formed flow of seeds from the seed box to the funnel of the vas deferens, while this sowing apparatus is difficult to manufacture and operate and has low reliability. All this leads to a decrease in crop yields.

Known sowing apparatus [3], comprising a housing, a coil with ribs, a coupling and a trough-shaped visor fixed in the upper threshold of the housing, the trough-like visor is made of an elastic material and with notches on its free end and facing the bottom towards the working surface of the coil while the ribs of the latter are in contact with the visor.

The disadvantages of this sowing apparatus include the uneven distribution of seeds over the sifting area, while a trough-like visor made of an elastic material and with notches at its free end and its bottom facing the working surface of the coil in contact with the visor does not exclude the formation of an active layer seeds during sowing by the coil, as well as uneven filling of the ribs of the coil due to wear of the trough-like visor made of an elastic material and chrome In addition, there will be spontaneous outflow of seeds into the seminal canal, since the end part of the spring-loaded valve is not adjusted relative to the axis of the coil, while there will also be spontaneous outflow of seeds into the seminal canal when the trough-like visor is made of an elastic material that covers the gap for the seeds to exit between the spring-loaded valve and the coil, while low reliability and service life of the sowing apparatus due to wear and tear of the trough-like visor made of elastic-el asthmatic material, when foreign impurities enter the seed material. All this leads to a decrease in crop yields.

Of the known closest in technical essence (prototype) is a sowing apparatus [4], which includes a housing, a coil in the form of a cylinder with grooves on its surface and a valve with a seed discharge edge, while the valve seed discharge edge is placed in a plane tangent to the cylindrical generatrix surface of the coil, and is located at an angle to the horizontal, less than the angle of repose of the seeds.

The metering device operates as follows. Seeds located in the receiving chamber of the metering device, gravity move down and are located on the valve slide, the angle of inclination of which is equal to the angle of repose of the sown seeds, while they are located tangent to the generatrix of the cylinder of the coil.

The disadvantages of this sowing apparatus include the presence of an active seed layer [5] when the coil is operated together with a valve having a seed discharge edge placed in a plane tangent to the generatrix of the cylindrical surface of the coil and located at an angle to the horizontal that is less than the angle of repose of the seeds, the thickness of the active layer is unstable and depends on the forces of internal friction between the seeds, the peripheral speed of the ribs of the coil, the type of seeds, therefore sowing seeds with a coil is pulsating-portioned, while drastically reducing the distribution of seeds over the sieving area is uniform, the sowing rate per unit area is changed, the setting of small sowing rates is complicated, while the presence of the edge of the valve seeds does not preclude the formation of an active layer of seeds, since the edge of the valve seeds is located at the outlet of the metering device, the edge of the valve seed discharge is just the surface along which the seed stream already formed by the coil moves, including the seeds of the active layer and the seeds carried by the grooves of the coil, omka relief valve only directs seed-portioned formed pulsatile flow of seed sowing apparatus. All this leads to a decrease in crop yields.

The claimed invention is aimed at eliminating the above drawbacks, and when using it, the following result was obtained: the formation and negative influence of the active seed layer during operation of the sowing apparatus on seed sowing is excluded, while it is known that the thickness of the active seed layer is unstable and depends on the forces of internal friction between the seeds and peripheral speed of the ribs of the coil [5], and in addition, it was found that 49 ... 61% of the seeds are sown with the active layer [6], therefore, 39 ... 51% of the seeds should be sown with the grooves of the coil sowing apparatus, while it is known that adjusting the volume of seeds sown by the grooves of the coil, together with the volume of seeds of the active layer is very difficult, which affects the accuracy of installation at a given seed rate of the entire seeder, as well as individual sowing machines, resulting in poor quality of sowing and reduced crop yields. The elimination of the formation and negative influence of the active layer of seeds is carried out by a sowing apparatus consisting of a coil, a bottom and a shaper-guide with a brush, while the uniformity of the distribution of seeds over the sifting area is improved due to the sowing of the seeds by the sowing apparatus, not in a pulsating portion, but in a smooth and continuous flow ( the coefficient of variation of the distribution of seeds over the sieving area of the proposed sowing apparatus is ν = 38%, the existing one is ν = 65 ... 70%), while the established rate of sowing of seeds is strictly ensured, from below injuries and seed consumption per unit area are sown. All this improves the quality of sowing, which leads to higher yields and lower production costs.

The specified technical result is achieved through the use of a metering device, including a housing, a coil in the form of a cylinder with grooves on its surface and a valve, characterized in that the coil is made with an increased volume of grooves, made of wear-resistant plastic with antifriction properties, and it is rigidly installed on the valve by means of supports the bottom made in the form of a part of the lateral surface of the cylinder with leading and trailing edges and with an axis of symmetry coinciding with the axis of symmetry of the coil, the bottom having a polished inner a surface with a radius greater than the radius of the coil, and the leading edge of the bottom is deflected along the rotation of the coil by an angle of 40 ... 45 degrees down from the horizontal plane of symmetry of the coil and is located in the third quadrant parallel to the axis of symmetry of the coil, while the rear edge of the bottom is made with a bevel to discharge the seeds, located in the fourth quadrant and deflected in the direction of rotation of the coil by an angle of 54 ... 58 degrees to the right of the vertical plane of symmetry of the coil, in addition, in the housing of the metering unit is rigidly mounted adjacent to the days, the edge of the bottom of the shaper-guide, made in the form of a part of the side surface of the cylinder with the axis of symmetry coinciding with the axis of symmetry of the coil, the shaper-guide has a polished inner surface with a radius equal to the radius of the inner polished surface of the bottom, and the free upper part of the shaper-guide is located in the second quadrant parallel to the axis of symmetry of the coil, it is deflected along the rotation of the coil by an angle of 47 ... 53 degrees to the left of the vertical plane of symmetry of the coil and to it CREPLA brush pile which is located on a circle with a radius smaller than the radius of the coil, wherein the gaps between the coil and Donets shaper-guide of equal to and smaller than the average minimum thickness of crop seeds.

Description of drawings

In FIG. 1 shows a diagram of a metering apparatus.

In FIG. 2 shows a diagram of a metering apparatus.

In FIG. 3 shows a diagram of fastening the bottom to the valve.

In FIG. 4 shows a diagram of the sowing apparatus (bottom open).

The sowing apparatus (Fig. 1, Fig. 2) includes a housing 1, a coil 2 in the form of a cylinder with grooves on its surface, made with an increased volume of grooves, made of wear-resistant plastic with antifriction properties, and on the valve 3 by means of supports 4 a bottom 5 is fixedly mounted made in the form of a part of the side surface of the cylinder with front A and rear B edges and with an axis of symmetry coinciding with the axis of symmetry of coil 2, moreover, the bottom 5 has a polished inner surface with a radius greater than the radius of the coil 2, and the front A edge of the bottom 5 is rejected and in the direction of rotation of the coil 2 by an angle α equal to 40 ... 45 degrees, down from the horizontal plane of symmetry of the coil 2 and is located in the third quadrant parallel to the axis of symmetry of the coil 2, while the rear B edge of the bottom 5 is made with a bevel 6 to discharge the seeds, located in the fourth quadrant and deflected in the direction of rotation of the coil 2 by an angle β equal to 54 ... 58 degrees, to the right of the vertical plane of symmetry of the coil 2, in addition, in the housing 1 of the metering unit is rigidly mounted adjacent to the front A of the bottom edge 5 of the shaper-guide 7 , at made in the form of a part of the lateral surface of the cylinder with the axis of symmetry coinciding with the axis of symmetry of the coil 2, and the shaper-guide 7 has a polished inner surface with a radius R _Ф equal to the radius R _{D of the} inner polished surface of the bottom 5, and the free upper part of the shaper-guide 7 located in the second square parallel to the axis of symmetry of coil 2, rejected along the rotation of coil 2 by an angle φ equal to 47 ... 53 degrees, to the left of the vertical plane of symmetry of coil 2 and a brush 8 is attached to it, pile 9 to Torah located on a circle of radius R _B, less than the radius R _K of the coil 2, the gaps between the coil 2, Donets 5 and 7, the guide-generator are equal and smaller than the average minimum thickness of crop seeds.

Coil metering device operates as follows.

During operation of the sowing apparatus, the seeds fall into the grooves of the coil 2, made in the form of a cylinder with grooves on its surface with an increased volume of grooves, made of wear-resistant plastic with antifriction properties, in order to ensure an inseparable technological process of sowing seeds of various crops with a flow smooth without pulsation and uniform in area sifting at minimum speed and maximum length of the coil 2 (Fig. 1, Fig. 2).

Seeds that have sunk into the grooves of the coil 2 are supplied to the metering device rigidly installed in the housing 1 of the metering device adjacent to the front A of the bottom 5 of the donor-guide 7, made in the form of a part of the lateral surface of the cylinder with an axis of symmetry coinciding with the axis of symmetry of the coil 2, and the former the guide 7 has a polished inner surface with a radius equal to the radius of the inner polished surface of the bottom 5.

To better fill the grooves with seeds, the free upper part of the shaper-guide 7 is located in the second quadrant parallel to the axis of symmetry of coil 2 and deviated along the rotation of coil 2 by an angle φ equal to 47 ... 53 degrees to the left of the vertical plane of symmetry of coil 2.

In order to avoid injury to the seeds at the entrance to the shaper-guide 7, the grooves of the coil 2 with seeds meet with a brush 8 attached to the free upper part of the shaper-guide 7. In this case, the pile 9 of the brush 8 is located on a circle with a radius R _B smaller than the radius R _{K of the} coil 2, and slides over the surface of the coil 2, while cleaning off excess seeds from the coil 2, ensuring the same volume of seeds in the grooves of the coil 2 and preventing seeds from entering the gap between the ribs of the coil 2 and the inner polished surface of the shaper-on ruler 7.

Further, the seeds in the grooves of the coil 2 enter the zone of the former-guide 7, in the zone of the forwarder-guide 7 the formation of an active layer of seeds unstable in thickness and volume is excluded, since the seeds during rotation of the coil 2 are only in the grooves of the coil 2 and are limited by the inner polished surface of the former the guide 7, while in the area of the shaper-guide 7 the seeds do not wake up and are not injured, since the radius R _{Ф the} inner polished surface of the shaper-guide 7 is greater than the radius R _{K of the} coil 2, while the gaps between the coil 2, the bottom 5 and the shaper-guide 7 are equal to and less than the average minimum thickness of the seeds of agricultural crops.

After the formation of the seed flow in the shaper-guide 7, the seeds in the grooves of the coil 2 are sent to the bottom area 5, which is mounted rigidly on the valve 3 by means of supports 4 and made as a part of the side surface of the cylinder with the front A and rear B edges, with the axis of symmetry coinciding with the symmetry axis of the coil 2, the collum 5 has a polished inner surface with a radius R _R larger than the radius R _K of the coil 2 and the front edge a of the stems 5 is rejected in the course of rotation of the coil 2 through an angle of 40 ... 45 degrees down from the horizontal plane of symmetry Coils and is located in the third quadrant of the coil parallel to the axis of symmetry.

In the zone of the bottom 5, during the rotation of the coil 2 with seeds in the grooves, the formation of an active layer of seeds is also excluded, since the seeds are only in the grooves of the coil 2 and are limited by the inner polished surface of the bottom 5.

For uniform distribution of seeds over the sifting area during operation, the trailing edge B of the bottom 5 is made with a bevel 6 for shedding seeds, located in the fourth quadrant and deflected along the rotation of the coil 2 by an angle β equal to 54 ... 58 degrees, to the right of the vertical plane of symmetry coils 2. At the end of the bottom 5, the seed flow formed in the grooves of the coil 2 of the sowing apparatus with the specified parameters and in accordance with agricultural requirements and without an active layer of seeds comes off the trailing edge B of the bottom 5 made with bevel 6 (f Ig. 3) for the discharge of seeds from the sowing device in a uniform, smooth, non-pulsating flow (Fig. 1, Fig. 2).

To release the seed box from the seeds, the leading edge A of the donut 5 is located in the third quadrant, parallel to the axis of symmetry of the coil 2 and deviated along the rotation of the coil 2 by an angle α equal to 40 ... 45 degrees, down from the horizontal plane of symmetry of the coil 2, which allows you to deflect a valve 3 with a bottom 5 from a coil 2 (Fig. 4), and a passage hole is formed for the flow of seeds between the coil 2 and the bottom 5.

Thus, the exclusion of the formation of an active seed layer that is unstable in thickness and volume during the operation of the sowing apparatus ensures uniform distribution of seeds over the sifting area, strict implementation of the established seed sowing rate, reduction of injury and seed consumption per unit area of sowing. All this improves the quality of sowing, which leads to higher yields and lower production costs.

Literature

1. USSR Copyright Certificate No. 1277918, АСС 7/12, Bull. No. 47 dated 12/23/1986 (analogue).

2. USSR Author's Certificate No. 1575987, А01С 7/12, Bull. No. 25 dated 07/07/1990 (analog).

3. USSR author's certificate No. 743616, А01С 7/12, bull. No. 24 dated 06/30/1980 (analogue).

4. Copyright certificate of the USSR No. 1496671, АСС 7/12, 07/16, Bull. No. 28 dated 07/30/1989 (prototype).

5. Klenin N.I., Sakun V.A. Agricultural and reclamation machines. - M .: Kolos, 1994, p.203.

6. Semenov A.N. Methods of technological calculation of the working bodies of grain seeders in connection with the laws of grain flow // Transactions / Chisinau Agricultural Institute. 1966. Volume 40.p.13-15.

Claims (1)

The metering device, comprising a housing, a coil in the form of a cylinder with grooves on its surface and a valve, characterized in that the coil is made with an increased volume of grooves, made of wear-resistant plastic with antifriction properties, and the bottom is fixed to the valve by means of supports, made in the form of a side part the surface of the cylinder with leading and trailing edges and with an axis of symmetry coinciding with the axis of symmetry of the coil, the bottom having a polished inner surface with a radius greater than the radius of the coil, and the leading edge of tsa is deflected in the direction of rotation of the coil by an angle of 40 ... 45 degrees down from the horizontal plane of symmetry of the coil and is located in the third quadrant parallel to the axis of symmetry of the coil, while the trailing edge of the bottom is made with a bevel to discharge the seeds, located in the fourth quadrant and rejected in the direction of rotation of the coil at an angle of 54 ... 58 degrees to the right of the vertical plane of symmetry of the coil, in addition, a shaper-guide made in the form of an hour is rigidly mounted in the housing of the metering device adjacent to the front edge of the bottom and the lateral surface of the cylinder with the axis of symmetry coinciding with the axis of symmetry of the coil, and the shaper-guide has a polished inner surface with a radius equal to the radius of the inner polished surface of the bottom, and the free upper part of the shaper-guide is located in the second quadrant parallel to the axis of symmetry of the coil, rejected the rotation of the coil at an angle of 47 ... 53 degrees to the left of the vertical plane of symmetry of the coil and a brush is attached to it, the pile of which is located on a circle with a radius of he longer radius of the coil, wherein the gaps between the coil and Donets shaper-guide of equal to and smaller than the average minimum thickness of crop seeds.

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