RU2613251C1 - Planting unit for sowing germinated pumpkin seeds by dotted-cluster method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: planting unit for sowing germinated pumpkin seeds by dotted-cluster method involves a seed box with a sowing conveyor mounted in the side wall of the seed box at an angle to the horizon and having cells, guides and a reflector. The cells in the conveyor are designed as recesses with the shape and size of the sown crop seed, the cells in the cross section of the sowing conveyor are offset from each other by half the length of the cell, the cell depth is equal to the mean thickness of the sown crop seed. The cell length and width is determined by certain mathematical expressions. Spillway openings with the diameter of 0.4 cell width are made in the central part of the cell. The guides, placed between the cells, are fixed above the sowing conveyor. The thickness of the guides is equal to the average thickness of the sown crop seed. The upper branch of the conveyor has a support on the pallet. A brush reflector is provided at the top of the seed box near the drive unit of the sowing conveyor, the drive unit is coupled with a seed duct. The length S of the sowing conveyor, required for one hundred percent filling of the cells, is in the range of 200-250 mm. The seed box of the sowing unit is made detachable to allow for mounting and dismantling the sowing conveyor.

EFFECT: invention allows to improve operational reliability of pumpkin sowing and to increase yield.

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Description

The invention relates to agricultural machinery, in particular to sowing machines of seeders for the exact sowing of swollen and sprouted seeds.

Known sowing apparatus for the exact sowing of cotton seeds and other crops, including a can for seeds, sowing and nest-forming discs, reflectors, ejectors and a drive mechanism, in which, for the purpose of nesting sowing of seeds at elevated speeds of movement of the aggregate, the cells on the sowing disk are arranged in groups in a straight line at an angle to the radius, and the nest-forming disk is equipped with blades mounted at a certain angle to the radius, with ends bent in the direction of the radius (SU, copyright certificate No. 190688, M. class A01C 7 / 18, A01C 7/16).

Despite the fact that the sowing disk is capable of capturing and moving up to four seeds at the same time, and the nest-forming disk move them to the window, the seeds in the nests have a large mutual removal and the quantity not always supplied corresponds to four pieces. Along with this, the seeds are subjected to mechanical stress and injured. The outlines of the cells of the apparatus do not correspond to the size and shape of the seeds of melons and row crops.

A metering apparatus is also known, including a horizontally arranged mesh disk with a seed reflector, in which, in order to reduce damage to the seeds during sowing, the seed reflector is made in the form of a cylindrical brush with an axis of rotation perpendicular to the axis of rotation of the disk, closed by a casing in the non-working zone; for the purpose of driving the brush into rotation, the disk is provided with holes in which the teeth of the sprocket enter, which mesh with the sprocket attached to the brush; in order to clean the brush from dirt, a comb is installed on its casing (SU, copyright certificate No. 375046, M. class. АСС 7/16).

In this sowing device, the design of a seed reflector deserves attention. However, the apparatus itself is not able to form the supply of a group of seeds into one nest and does not provide sowing of swollen and sprouted seeds.

A metering apparatus is known, including a seed box with a visor at the front end surface, a drive sprocket for driving the seed conveyor, which rests on a pallet and has a tension sprocket. The conveyor has transverse rows of cells with active guides, and the sowing conveyor consists of a sleeve-roller chain, to the links of which plates with inserts having cells and active guides are attached (Resource-saving soil-protective technology for mechanized cultivation and harvesting of melons: Tutorial (V.G. Abezin; Kalm. State university; Elista, 1993, 120 pp.).

The disadvantages of the apparatus include the use of a sleeve-roller chain on the sowing conveyor, which wears out quickly under conditions of dry friction, which leads to a malfunction of the apparatus. In addition, active guides do not provide 100% filling of the cells when lifting the seed on the guides when they are located across the cell, and the reflector allows injury to the germinated seeds.

A known sowing apparatus is mainly used for sowing swollen and sprouted seeds of melons, including a seed box with a seed conveyor having cells, active guides and a reflector, while the seed conveyor is mounted in the side wall of the seed box at an angle to the horizontal, and an apron is installed over the conveyor, equal to the width of the sowing conveyor, for adhering to it when emptying the seed box, and the cells on the sowing conveyor are staggered (RU patent for invention 22 74988 C1, A01C 7/16, A01C 7/18).

The disadvantages of this sowing apparatus include: damage to seed sprouts by active guides and their jamming between them, low reliability of filling the cells due to the uncertainty of the conveyor length, that is, the path required to fill the cells, injuring the seeds with an apron, cell size uncertainty.

This sowing device is accepted by us as the closest analogue.

The essence of the claimed invention is as follows.

The problem to which the claimed invention is directed is to increase the accuracy of sowing seeds without damaging the seeds, making it possible to place seeds in the nest with a dotted line with a distance between seeds of 5-10 mm.

EFFECT: increased technical reliability of pumpkin sowing, saving expensive seeds, increasing productivity.

The specified technical result is achieved by the fact that the proposed sowing apparatus for sowing sprouted pumpkin seeds in a dot-nested manner includes a seed box with a seed conveyor mounted in the side wall of the seed box at an angle to the horizon, having cells, guides and a reflector, while the cells on the conveyor are made in the form of recesses in the shape and size of the seed of the sowing culture, in the cross section of the sowing conveyor, the cells are offset relative to each other by half the cell length, depths cells is average thickness plated seed culture, the cell length is determined from the expression

where V _r is the relative speed of the seed;

δ is the thickness of the seed;

μ is the ratio of the force of vertical pressure to the weight of the seed,

- коэффициент внутреннего трения;

- coefficient of internal friction;

η is the ratio of lateral pressure force to vertical pressure force, the cell width is determined from the condition:

- средняя ширина семени;Where

- the average width of the seed;

σ _b is the standard deviation of the width of the seed;

- средняя длина семени;

- the average length of the seed;

σ _l is the root mean square ratio of the length of the seed,

spill holes with a diameter of 0.4 cell width are made in the central part of the cell, guides placed between the cells are fixed above the sowing conveyor, the thickness of the guides is equal to the average thickness of the seed of the sowing culture, the upper branch of the conveyor has support on the pallet, in the upper part of the seed box near the drive the seed conveyor unit is provided with a brush reflector, the drive unit is paired with the seed tube, the length S of the seed conveyor, necessary for 100% filling of the cells, is found it is within 200-250 mm, the seed box of the sowing unit is made detachable, to enable mounting and dismounting of the sowing conveyor.

The invention is illustrated by drawings.

In FIG. 1 - shows a cross section of the metering unit with a local cutout of the metering conveyor in the area of the cell.

In FIG. 2 is a view A of FIG. one.

Information confirming the possibility of implementing the claimed invention are as follows.

The sowing apparatus for sowing germinated pumpkin seeds in a dashed-nesting manner includes a seed box 1 having a lower mating part 2 to which guides 4 are mounted using screws 3, mounted above the sowing conveyor 5 with cells 6 having drainage holes 7 in the central part.

Cells 6 are made in the form of recesses in the conveyor 5 in the shape and size of the seed of the sowing culture.

The depth of the cell is equal to the average thickness of the seed, the length of the cell is determined from the expression:

where V _r is the relative speed of the seed;

δ is the thickness of the seed;

μ is the ratio of the force of vertical pressure to the weight of the seed,

- коэффициент внутреннего трения;

- coefficient of internal friction;

η is the ratio of lateral pressure force to vertical pressure force. The width of the cell is determined from the condition:

- средняя ширина семени;Where

- the average width of the seed;

σ _b is the standard deviation of the width of the seed;

- средняя длина семени;

- the average length of the seed;

σ _l is the root mean square ratio of the length of the seed.

In the middle part of cell 6 there are spill holes 7 with a diameter equal to 0.4 of the cell width. The sowing conveyor 5 is mounted using the lower unit 8 and the upper drive unit 9 in the side wall of the seed box at an angle of 45-50 ° to the horizontal plane. The upper branch of the seed conveyor 5 rests on a pallet 10, and the lower branch of the seed conveyor 5 rests on the bottom 11 of the seed box 1. In the upper part of the seed box 1 at the drive drum 9, a brush reflector 12 of excess seeds from the cells 7 of the seed conveyor is fixed to the wall of the seed box 1 5. The guides 4 are fixed to the brush reflector 12 by the brackets 13. The upper drive unit 9 of the seed conveyor 5 is connected by the seed tube 14. The guides 4 are fixed between the cells 6. The thickness of the guides is equal to the average thickness of the seed no sowing culture. In the cross section of the seed conveyor 5, the cells 6 are offset relative to each other by half the length of the cell, to ensure the distance between the seeds in the nest is 5-10 mm.

It was experimentally established that one hundred percent filling of the cells with one seed is ensured if the length S of the seed conveyor 5 is 200-250 mm. Seed box 1 is made detachable using flanges 15, 16.

The metering device operates as follows. Before starting work, the upper part of the seed box 1 is removed. A sowing conveyor 5 is mounted on blocks 8, 9 with cells 6 corresponding to the shape and size of the seed of the sowing culture. The upper part of the seed box 1 is mounted on the flanges 15, 16 and secured through a waterproof gasket. Seed box 1 is filled with seeds along with the water in which they are soaked. A drive sprocket is installed on the drive unit 9, providing an appropriate gear ratio to obtain a predetermined distance between the sockets. Sowing begins. The sowing conveyor 5, moving under a layer of seeds, captures the cells 6 seeds, which are placed in the cell 6 long in the direction of movement of the cells, which is facilitated by the guides 4, which orient the seeds along the cells 6. Watering holes that create a suction effect contribute to the seed placement. When cells 6 approach the brush reflector 10, the bristles remove excess seeds from cells 6 and one seed remains in cells 6. On the drive unit 9, the cells 6 are deformed and push the seeds into the vas deferens 14, which ensures their transportation to the coulter at a predetermined interval.

The use of a sowing conveyor with cells corresponding to the shape and size of the seed of the sowing culture, the installation of passive guides to ensure the orientation of the seeds above the cells, and the use of a brush reflector provide the claimed technical result.

Claims (13)

Sowing apparatus for sowing germinated pumpkin seeds in a dot-nest manner, including a seed box with a seed conveyor mounted in the side wall of the seed box at an angle to the horizon, having cells, guides and a reflector, characterized in that the cells on the conveyor are made in the form of recesses in shape and the size of the seed of the sowing culture, in the cross section of the sowing conveyor the cells are offset relative to each other by half the length of the cell, the depth of the cell is equal to the average thickness of the seed of the sowed crop tury, the cell length is determined from the expression:

, where V _r is the relative speed of the seed; δ is the thickness of the seed; μ is the ratio of the force of vertical pressure to the weight of the seed;

- coefficient of internal friction; η is the ratio of lateral pressure force to vertical pressure force, the cell width is determined from the condition

, Where

- the average width of the seed; σ _b is the standard deviation of the width of the seed;

- the average length of the seed; σ _l - standard deviation of the length of the seed, spill holes with a diameter of 0.4 cell width are made in the central part of the cell, guides placed between the cells are fixed above the sowing conveyor, the thickness of the guides is equal to the average thickness of the seed of the sowing culture, the upper branch of the conveyor has support on the pallet, in the upper part of the seed box near the drive the seed conveyor unit is provided with a brush reflector, the drive unit is paired with the vas deferens, the length S of the seed conveyor necessary to completely fill the cells, find lasts within 200-250 mm, the seed box of the sowing apparatus is made detachable to allow mounting and dismounting of the sowing conveyor.

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