RU153088U1 - UNIT OF INTERRUPTED SEEDING OF SEEDS OF GRAIN CROPS - Google Patents

Abstract

1. The sowing apparatus, comprising a housing with a loading and unloading window, a metering coil with grooves, mounted on the shaft and from the side of the loading window covered by a valve installed with the possibility of movement along the axis of the metering coil together with the metering rate limiter of the seed material, the profile of which corresponds to the metering profile a coil rotating with it, characterized in that the metering coil is made with deep and shallow grooves alternating one through the other. 2. The apparatus according to claim 1, characterized in that the shallow groove of the coil is of the same profile with a deep groove, while the cross-sectional area of the shallow groove is 3 times smaller than that of the deep.

Description

The utility model relates to agriculture and agricultural engineering, in particular, to methods of sowing grain crops and designs of sowing apparatus.

For over 100 years, the method of sowing cereals I.E. Ovsinsky, based on a system of farming with self-regulation of plants during sowing in accordance with the principle of "densely - empty": "... plants in order to produce a large crop must grow very dense, and, from the sides, have free space ..." (I. Ovsinsky E. The new system of agriculture. - Kiev, type. S.V. Kulzhenko, 1899). In such crops, plants are forced to engage in intraspecific struggle, while having an abundance of light and nutrition at the same time. Sowing of grain was carried out to a depth of about 5 cm with ribbons about 30 cm wide on the moist base of the capillary layer of the soil, alternating them with unseeded strips of the same width. At the same time, sowing was carried out in a row-wise fashion with six rows in each ribbon (Fig. 1). Unplated strips were treated with horse weeds 2-3 times until the grains on the seeded strips grow and darken in the unplated stripe, which, in turn, makes it possible to suppress weed growth and is equivalent to the harrowing effect.

This method then allowed (at the end of the 19th century) the germination of seeds without rain on the 6th day, the accelerated development of grain by 2 weeks and an increase in yield up to 2 times.

However, in modern conditions, the implementation of this method of sowing grain with existing technical means is difficult due to changes in standards. In particular, the width of non-sown strips (30 cm) is already insufficient for mechanized weeding, and the row spacing even with narrow-row sowing is greater than I.E. Ovsinsky (for example, 7.5 cm - instead of 6 cm).

But now a similar sowing pattern is in principle feasible if the sowing strips are formed across the direction of movement of the sowing unit from mutually skewed gaps 2 in rows or strips, and the sowing strips are from sown areas 1 (Fig. 2, the arrow shows the direction of movement of the sowing unit). However, with the width of non-sown gaps 2 to 30 cm (as in I.E. Ovsinsky) for example, these non-sown strips can be overgrown with weeds. Here, a technique equivalent to the harrowing effect can be proposed to sow a small amount of seeds of the same grain culture as in sections 1 into these gaps. Then the scheme for sowing seeds of the grain culture in FIG. 3, formed by densely sown strips from sections 1 and sparsely sown ("half empty") strips from sections 3 with weed suppression by plants of the same sown grain crop. To implement the sowing according to the scheme in FIG. 3 a special design meter is required.

Known coil metering device (AS 1326208) contains a housing with a coil and a limiter for the metering rate of the seed to be sown in the form of a coupling with pins rotating together with the coil on one shaft. The profile of the pins corresponds to the profile of the grooves of the coil. The quantity of seeds supplied is adjusted by moving the coupling along the axis of rotation of the coil. In this case, the coupling pins increase or decrease the overlap of the grooves of the coil.

However, the apparatus is not intended and not suitable for intermittent sowing of seeds.

Known coil metering device (a.s. 1304769), characterized, in particular, in that at the end of the metering coil is made a collar. The device is not intended and not suitable for intermittent sowing of seeds of grain crops.

Known sowing apparatus for simultaneous sowing of grain crops and granular mineral fertilizers - tuks (N.I. Lyubushko, Yu.M. Krivoshey. Combined sowing apparatus of a pneumatic grain fertilizer seeder // Tractors and agricultural machines. - 1989. - No. 12, - S. 37-38), including grain and fertilizer sowing machines. Each of the sowing apparatuses that are part of the combined sowing apparatus contains a tedder mounted on a shaft, a sowing coil with grooves mounted on another shaft, on the cantilever end of which there is a gear connected to another gear mounted on the shaft of the tedder, in addition, the coil from the side of the loading window is surrounded by a valve installed with the possibility of movement along the longitudinal axis of the seed coil. The seeding rate is changed by moving the valve in the axial direction using a screw.

However, this design is not intended and not suitable for intermittent sowing of seeds of grain crops.

A metering apparatus is also known (RF patent No. 2264699) comprising a housing with a loading window and an unloading window, a shaft with a tedder, a shaft mounted in bearing units, with a metering coil fixed to it, and a limiter for the dosage rate of the material. The profile of the latter corresponds to the profile of the metering coil. The limiter of the dosage rate of the material is installed in the bearing unit on the same shaft with the ability to move along the grooves of the metering coil. The end face of the coil is equipped with a shoulder that is flush with the wall of the loading window. The metering coil with a limiter for the metering rate of the seed to be sown on the side of the loading window is covered by a valve. She with the help of an adjusting screw has the ability to move along the grooves of the coil simultaneously with the limiter of the dosage rate of the seed.

However, this design is not intended and is not able to provide intermittent seeding of seeds of grain crops.

The objective of the utility model is to provide intermittent seed metering.

The problem is solved due to the fact that the sowing apparatus comprising a housing with loading and unloading windows, a tedder mounted on a shaft, a metering rate limiter for the sowing material, the profile of which corresponds to the profile of the sowing coil installed in the bearing assembly on the same shaft with the possibility of simultaneous movement together with the valve along the grooves of the metering coil, as well as axial rotation together with it, and the end of the metering coil is provided with a shoulder made flush with the wall load window, a valve covering the seed coil from the side of the boot window, mounted to move along the axis of the seed coil, seed metering coil with grooves according to the claimed utility model, made with deep and shallow grooves alternating one through the other, and the small groove of the coil may have the same profile with a deep groove, and the cross-sectional area of the shallow groove is 3 times smaller than that of the deep.

The essence of the utility model is illustrated by drawings, where in FIG. 4 shows a metering apparatus, cross section; in FIG. 5 shows a sowing coil, isometry; figure 6 - sowing coil with a limiter of the dosage rate of the sowing material Assembly, isometry.

The sowing apparatus comprises a housing 1 with a loading window A and an unloading window B, a shaft with a tedder 2, a shaft 3 mounted in bearing units, with a metering coil 4 fixed to it, a metering rate limiter for seed 5, whose profile corresponds to the profile of the metering coil 4 , i.e. the shape of the protrusions of the limiter of the dosage rate of material corresponds to the grooves of the coil, and the limiter of the dosage rate of seed 5 is installed in the bearing assembly (not shown in the drawings) on the same shaft with the possibility of movement along the grooves of the seed coil 4, the end of which is provided with a shoulder 6, made flush with the wall boot window. The metering coil 4 with the metering limiter for the metering material 5 from the side of the loading window A is covered by a valve 7, which is able to move along the grooves of the coil 4 together with the metering metering limiter for the seed material 5. The metering device is also equipped with a seal 8, designed to prevent spillage of material and installed between the metering coil 4 and the housing 1. The metering coil may not have small grooves.

The metering device operates as follows.

Before starting work, move the valve 7 with the limiter of the rate of seeding of material along the grooves of the coil 4, setting the required portioned volume of the seed. The metering coil 4 and the agitator 2 are driven by a gear drive (not shown in the drawings). Bulk seed from the hopper (not shown) through the loading window A enters the grooves of the coil 4 and, forcibly moving together with the coil during its rotation, in metered portions, the volume of which is limited by the profile of the grooves of the coil 4, made with deep grooves 9 and small grooves 10, the limiter of the dosage rate of the material 5 and the seal 8, poured into the space between the coil 4 and the housing 1 of the metering unit. Thus, an intermittent flow of material is formed, which is directed through the discharge window B through the pneumatic conveying system to the working bodies (not shown in the drawings) for the further implementation of the technological process of sowing seeds of grain crops in accordance with the scheme in FIG. 3. And when installing a metering coil in the apparatus without small grooves, if necessary, a scheme for sowing seeds can be implemented in accordance with the scheme in FIG. 2.

Claims (2)

1. The sowing apparatus, comprising a housing with a loading and unloading window, a metering coil with grooves, mounted on the shaft and from the side of the loading window covered by a valve installed with the possibility of movement along the axis of the metering coil together with the metering rate limiter of the seed material, the profile of which corresponds to the metering profile a coil rotating with it, characterized in that the metering coil is made with deep and shallow grooves, alternating one through the other. 2. The apparatus according to claim 1, characterized in that the shallow groove of the coil of the same profile with a deep groove, while the cross-sectional area of the shallow groove is 3 times smaller than that of the deep.

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