RU2146436C1 - Shank - Google Patents

Abstract

FIELD: agriculture, in particular, rice seeding equipment. SUBSTANCE: shank has disks carrying detachable flanges made in the form of truncated cone. Working surfaces of flanges are positioned at an angle of 150-155 deg with respect to disk side surface. Leveling plank is attached to shank coverer. EFFECT: simplified construction and provision for uniform embedding of seeds in soils of different density and lumpiness. 2 cl, 3 dwg, 1 tbl

Description

 The invention relates to agricultural machinery, in particular to sowing equipment.

 To obtain friendly seedlings of rice, this culture should be sown to a strictly defined depth - 1.5 ... 2.0 cm (E.P. Aleshin, V.P.Konyukhova. A quick reference guide for the rice grower. M: Agropromizdat, 1986, p. . 84).

 There are known openers in which the depth of travel of the discs is limited by guides fixed on them by annular plates, and the guides have holes for fixing the couplings (Soshnik, AS USSR, A 01 C 7/20 N 740178, 01/09/79), etc. The main disadvantage here is the difficulty in manufacturing and operation, and the working surface of the annular plates approaches a cylindrical shape. This contributes to the deepening of the coulter when hitting a lump, which reduces the uniformity of the depth of seed placement.

 The most rational, in our opinion, is the opener of the SRN-3.6 rice seeder, equipped with flanges to limit the depth of travel, in particular, the adaptation to the C3-3.6 and SRN-3.6 seeders for sowing rice on heavy soils SUK-02.000, adopted by us for the prototype (Mounted rice seeder SRN-3.6. Agricultural machinery. Catalog. Part 1, Moscow, 1981, S. 249 - 250).

 The invention, as well as the details of the prototype for comparison are illustrated in figures 1, 2, 3.

In FIG. 1 - shows a design diagram of the opener of the rice seeder SRN-3.6:
and - existing with a cylindrical shape of the working surface of the flange,
b - offered with flanges in the shape of a truncated cone.

FIG. 2 is a diagram of the interaction with the soil flanges:
a - the existing form,
b - the proposed form.

 FIG. 3 is a diagram of an alignment bar installation.

 The coulter of the prototype includes disks 1, flanges 2, fixed on them, earthing 3, leash 4, spring 5, scraper 6 (Fig. 1A).

The coulter of the SRN-3.6 seeder is not without drawbacks: the flanges 2 are cylindrical, located at an angle of 90 ^o to the side surface of the disk 1 and form a working surface on paired disks having a concave shape, consisting of two surfaces inclined to the seed axis furrows at an angle of 5 ^o (corresponding to the relative position of the coulter discs), which contributes to the movement of soil lumps to the axis of the seed furrow, keeping them in place and hitting the coulter (Fig. 2a).

 At the same time, the coulters are so deepened that some of the seeds are on the surface of the field, pecked by birds, carried away by irrigation water when the check is flooded; the other part of the seeds is buried to a depth of 3 ... 5 cm each time after the passage of the lumps by the opener, which also leads to direct losses of part of the seed.

 In addition, the design of the coulters' coulters of both rice and ordinary seeders does not allow to compact and level the field surface - after the pass of the seeder, loosened furrows remain, sprinkled with soil, easily washed out by water when the check is flooded.

 The task is to provide a uniform depth of seed placement on soils of different density and lumpiness.

This task is achieved in that the opener for sowing rice is equipped with flanges made in the form of a truncated cone with an angle of inclination of the working surface of the flanges to the plane of the disk within 150 ... 155 ^o (Fig. 1B).

With this form of construction of the flanges, a certain angle of "entry" of the flanges into the soil is formed within 60 ... 70 ^o , which allows you to move up to 75 ... 80% of the lumps from the center of the furrow, rather than run over them, and guarantees a more uniform seed placement in depth (Fig. 2b).

 The same angle of "entry" flanges into the soil allows you to work on the principle of self-cleaning and therefore there is no need for cleaning 6.

 Such a flange design makes it possible to obtain another additional effect: the seeds lie in a compacted bed, which is important for restoring the capillarity of the soil in the sowing zone and “pulling” the soil moisture to the seeds due to this.

 To determine the optimal angle of inclination of the flange working surface to the lateral plane of the disk, the following experiment was carried out.

 On the coulter discs, the experimental flanges developed by us with various angles of inclination of their working surface to the plane of the disc were fixed, and the coulter was pulled in the experimental section at a constant pressure spring force, each time measuring the seed placement depth.

 The measurement data are summarized in the table.

The table shows that the required seed placement depth of 1.5 ... 2.0 cm is provided when the angle of inclination of the working surface of the flange to the plane of the disc is 150 ... 155 ^o .

 The experiments also showed that the proposed design of flanges allows you to work on soils of different densities.

 To prevent shortcomings in the work of existing zagortagami, the coulter is equipped with a leveling bar 7, hung on the zagotachiki so that, without negatively affecting the quality of the main operation performed by zagottachami, it provides in the same passage both alignment and partial compaction of the field surface above the sown row of seeds (Fig. 3).

 Installing the seeder at a given depth of seed placement is carried out according to well-known rules: depending on the density of the soil, the compression spring 5 is set to a certain force, after which the seeder is pulled out for a certain distance, stopped, and then, opening the sown rows, measure the depth of seed placement. If necessary (depending on the density of the soil) increase or decrease the pressure force of the spring 5 on the leash 4, achieving the desired result.

 The proposed design of the opener allows to reduce the seeding rate by 25 ... 40% or more, which saves at least 60 kg / ha of conditioned seeds.

 Assuming the cost of 1 kg of rice seeds at 4.0 thousand rubles, we get that the saving of sowing material will be 240.0 thousand rubles per hectare of crops (in 1996 prices).

Claims (2)

1. The opener, including disks with flanges fixed to them, earthing and a leash with a spring on it, characterized in that the flanges are made in the form of a truncated cone with an angle of inclination of their working surface to the plane of the disk, equal to 150 - 155 ^o .  2. The opener according to claim 1, characterized in that the leveling bar is fixed to the earthing device.

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