RU2310311C1 - Seeding unit for drill - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: seeding unit has hopper fixed on frame, and seeding device hung to flexible hangers in lower part of hopper. Seeding device is made rectangular and is provided with pipe-like tips of seed guide. Seeding device has vibration type drive. Continuous partition is mounted within body of seeding device, above and in parallel with its bottom. Partition is equipped with four openings and four cuts provided near edges of both its axial lines and deigned for tight and gapless attachment of partition to body wall. Also, two openings are provided in partition along its larger axis, midway between smaller axis and body end walls. Pipe-like tips are secured within these openings. Rubber hoses are put onto pipe-like tips. Hoses are attached with their other ends to other tips which are attached to wall of hopper lower throat, said wall being provided with windows. Lower edges of windows and shield slopes adjoining to said edges are made semi-circular.

EFFECT: simplified construction, improved quality of seed sowing process due to keeping seeds at constant level within seeding device regardless of relief of field to be sown by means of drill.

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Description

The invention relates to agricultural machinery, in particular to seeders.

A metering apparatus is known comprising a hopper mounted on a seeder frame, a metering device suspended from below on flexible suspensions with metering holes made in its bottom. The lower part of the hopper ends with a rectangular neck. The bottom of the lower neck of the bunker is a gable visor. In the walls of the neck of the hopper, to which the lower edges of the slopes of the visor are adjacent, there are windows overlapped by vertically adjustable metering devices, and the seed level in the sowing device is determined by the vertical distance between the lower edges of the metering walls and the bottom of the metering device. (RF patent №2129767, АСС 7/04. Bull. No. 13, 05/10/1999).

The disadvantage of this apparatus design is the location of the metering windows in the area of the sowing holes, which creates different seeding conditions for them compared to others remote from these metering windows.

In addition, the direct contact of the oscillating layer of seeds in the sowing device and the seeds coming from the hopper through the windows of the dispenser results in the forced removal of seeds outside the windows, which leads to an increase in their level in the sowing device. This circumstance not only reduces the consumption of seeds through sowing holes, but also increases the unevenness of sowing through these holes. Fluctuations in the level of seeds in the sowing device is especially characteristic when the seeder is working in fields with rugged terrain.

Closest to the proposed one, designed to maintain a constant level of oscillating seeds, is a seeder sowing machine, including a hopper mounted on the seeder frame, and a sowing device suspended from it on flexible suspensions with sowing holes and a seed tube installed underneath it and the drive of its vibrations, moreover, the neck of the rectangular hopper is placed inside the housing of the metering device, and its bottom is a gable visor in the walls of the neck, to which the lower the slope of the visor, there are windows overlapping vertically adjustable dispensers, each of the dispensers is made sliding, its lower part is movable, its sides are mounted on the sides, an axis with a two-blade valve is installed at the bottom, on one of its blades, on the back side in the uprights, is fixed the axis, the ends of which are pulled out on both sides beyond the dispensers, are equipped with plastic hollow floats so that their lower planes and the ends of the lower edges of the walls of the moving parts of the dispensers are located in the same horizon the surface of the plane, and each of the dispensers is located in pockets that are made in both side walls of the housing of the metering device (RF Patent No. 2210201, АСС 7/16. Bull. No. 23, 08/20/2003, prototype).

The disadvantage of this apparatus is the complexity of the design of both the sowing device, and dispensers designed to maintain a constant level of seeds in the sowing device. Placing the floats on both sides of the metering units on the same axis does not provide a constant level of seeds in the sowing device, especially when the seeds are working on the rugged topography of the sown field.

The objective of the invention is to simplify the design of both the sowing device and the lower neck of the hopper and improve the quality of sowing seeds by the seeder by maintaining a constant level in the sowing device regardless of the intersection of the relief of the sowing field.

This problem is solved due to the fact that, in contrast to the prototype, a solid partition is installed and attached to the walls of the housing above the bottom and parallel to it inside the housing of the metering device without any gaps, four holes and four cutouts at the edges of both its axial lines and two holes are made along the major axis in the middle between the minor axis and the end walls of the body, in which the tips are fixed in the form of tubes, rubber hoses are put on the tubes, the hoses are attached to the other ends at the other ends, after the bottom is attached to the walls of the lower neck of the hopper, in which the windows are made, and the lower edges of the windows and the adjoining slopes of the visor are made semicircular.

Figure 1 shows a General view of the sowing apparatus, front view; figure 2 - mounting the partition to the end wall of the housing of the metering device; figure 3 is a partition, a top view; figure 4 is the lower neck of the hopper, a view from the side of the window in the wall of the neck.

The sowing apparatus of the seeder is made vibrating and contains a frame 1 (Fig. 1), on which the hopper 2 is fixed by means of an arm 3, for which plates 4 reinforced with kerchiefs are welded to the hopper 5. The hopper 2 is attached to the arm 3 and the bracket to the frame 1 by bolt connections 6. To the bunker 2 from below through a flexible suspension 7 is attached a sowing device 8 of a rectangular shape with the tips of the seed tubes 9. The drive 10 of the sowing device is mounted on a horizontal shelf 11, welded to a vertical bracket 12 and reinforced by the sprinkles 13. The bracket 12 of the actuator 10 is mounted on the frame 1 by means of the upper 15 and the bottom 14 of the plates welded to the bracket by a bolt connection 16. The transmission of vibrations from the actuator 10 to the left metering unit 8 and the right one (due to the symmetry of the right apparatus is not shown) is carried out by connecting rods 17 and 18, and from the left to the next - the connecting rod 19. Oscillations of all left and right sowing devices are performed in antiphase. Tips 22 are attached to opposite walls of the lower neck 20 of the hopper 2 adjacent to the slopes of the visor 21, to which rubber hoses 23 are attached. The second ends of the hoses are fixed in tubes 24 that are installed in the partition 25 located above the bottom and parallel to the bottom 26 of the metering device housing 8. The partition 25 (figure 2) is attached to the side and end walls 27 of the housing of the metering device 8 using the corners 28. Corners 28 are attached to the walls of the housing of the metering device, including the end wall 27, with screws 29.

A partition 25 is mounted on the horizontal shelves of the corners 28 and fixed with screws 30. In order to ensure a tight fit between the solid partition 25 and the walls of the metering device 8 without gaps, four cutouts 31 and four holes 32 for screws 30 are made therein at the edges of both of its axial lines (figure 3). In the partition 25 along its major axis in the middle between the minor axis and the end walls of the body, symmetrically with respect to the minor axis, two holes 33 are made in which the tips are fixed in the form of tubes 24 and rubber hoses are worn on the tubes 23. The rubber hoses 23 are attached to the ends by other tips 22, the latter are attached to the walls of the lower neck 20 of the hopper 2, in which the windows 35 are made.

In the walls of the lower neck 20 of the hopper 2, adjacent to the slopes of the gable visor 21, with the help of the holes 34, the tips 22 of the rubber hoses 23 are screwed (Fig. 4). The lower edges of the windows 35 and the slopes of the gable visor 21 of the neck of the hopper 2 adjacent to them have a semicircular shape.

The working process of the sowing apparatus of the seeder proceeds as follows.

The seeds, poured into the hopper 2, due to their flowability, enter the lower neck 20 and the gable 21 are divided into two streams (shown in Fig. 1 by arrows). Each of these flows through the windows made in the walls of the lower neck 20 of the hopper 2 and the tips 22 attached to these walls, enter the rubber hoses 23 and then through the tubes 24 into the internal cavity of the sowing device 8. Spontaneous filling of the cavity of the sowing device with seeds will occur until until the tops of the seed slides reach the septum 25. When you turn on the drive 10 of the sowing device due to its fluctuations, the seed will be aligned and its further flow from the hopper 2 bu children until the top layer of seeds reaches the septum 25.

During the operation of the apparatus, the seeds from the sowing device 8 through its sowing holes, the tips of the vas deferens 9 and the vas deferens (not shown in the diagram) will enter the grooves formed by the coulters and be sealed with soil.

The seed level in the sowing device will be maintained due to their receipt by gravity from the hopper. The same mode of oscillation of the seeds coming from the hopper through the tubes installed in the septum and the seeds in the sowing device eliminates the possible re-compaction of the layer of vibrating seeds in the sowing device at a constant level.

A constant level of seeds in the sowing device, determined by the installed partition 25, will provide the same conditions for uniform sowing through all sowing holes. These conditions will be maintained during the work of the seeder in fields with rugged terrain.

The proposed vibratory sowing device due to a design change allows you to expand the functionality of the seeder and to ensure high-quality sowing of seeds, regardless of the topography of the sown field.

The sowing apparatus can be easily implemented in agricultural production.

Claims (1)

A seeder sowing apparatus, comprising a hopper mounted on a frame, a rectangular shaped sowing device suspended from below on flexible pendants with the tips of the vas deferens and a drive for oscillating it, the rectangular hopper neck being placed inside the sowing device and its bottom is a gable visor, and in the walls necks, to which the lower edges of the slopes of the visor adjoin, windows are made, characterized in that in the case of the metering device above the bottom and parallel to it is solid a partition in which four holes and four cutouts are made at the edges of both of its axial lines for fastening it tightly without gaps to the walls of the housing, and two holes along the major axis in the middle between the minor axis and the end walls of the housing for fixing the tips in the form of tubes, s rubber hoses mounted on them, the second ends of which are connected to other tips attached to the walls of the lower neck of the hopper having windows, the lower edges of the windows and the adjoining slopes of the visor are made semicircular in shape.

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