RU175825U1 - STILTER SEEDER FOR THE ZERO TECHNOLOGY - Google Patents

Abstract

The stubble drill coulter for zero technology is designed for sowing a variety of crops with grain-fertilizer seeders, which provide for separate seed and fertilizer compartments and separate seed and fertilizer devices. The coulter is made of square tube and reinforced 40-50 mm above the ripper tip. Inside the rack there is a guide plate for attaching the piping. In front of the grain coulter, a soil plate is attached at an angle of 25-45 ° to the direction of movement, protruding beyond the sides of the rack up to 10 mm, and behind it a soil-sealing plate is attached, these two plates form a sowing bed 40-50 cm above the depth of placement of mineral fertilizers. A hole is made in the rear lower part of the grain opener to prevent clogging with soil.

Such a constructive implementation allows separate direct sowing and fertilizing at different levels from the soil surface with minimal impact of working bodies on the soil, affecting no more than 20% of the soil surface occupied by stubble and stubble residues. In this case, the seedlings receive loosened space in the soil for their starting growth to the depth of the fertilizer 90-100 mm and a width of 40-50 mm.

Description

This technical solution relates to agricultural engineering, in particular to a stubble seeder with working bodies with anchor coulters and a wedge-shaped roller for introducing fertilizer seeds and fertilizers into the soil after the previous harvest, in the presence of stubble and a layer of chopped straw on the soil surface.

From the existing level of technology, the working body of SKP 01.08.050-04 of the Omichka seeder is known in the modification of SKP 2.1 L, which provides sowing on stubble with simultaneous cultivation, introduction of granular fertilizers into rows with sowing material.

The disadvantage of the working body with the anchor coulter is that it provides fertilizer in rows at the same level with the seeds, which does not ensure the efficient use of fertilizers due to the lack of moisture at this level during the growing season, and when applying fertilizer at a rate of 2 c / ha chemical burns of seedlings and inhibition of their growth are observed.

Closest to the claimed technical model is the working body of an ordinary seeder for separate introduction of seed and fertilizers into the soil by direct sowing without tillage, containing a row-mounted cultivator and a coulter of a tubular type, with the coulter mounted above the cultivator (see the description of the invention to the patent of the Russian Federation 2218697, IPC A01C 7/20, A011C 7/00 announced July 15, 2002, published December 20, 2003). The well-known working body of the prototype allows for the separate application of seed and fertilizers at different levels from the soil surface, in the absence of presowing tillage, loosening a wide strip of soil with a cultivator knife loosening up to 100% of the stubble area.

The disadvantage of this technical solution is the inability to be used if it is necessary to apply agrotechnical requirements to preserve 80% of the soil area with the stub of the predecessor after sowing using zero technology. Since, if more than 20% of the stubble area of the predecessor is loosened by the working bodies of the seeder, then this technology cannot be considered zero (no-till).

The task to which the presented technical model is directed is the separate application of fertilizers and seeds, while loosening no more than 20% of the stubble surface. Moreover, fertilizers are applied to a depth of large, up to 100 mm, in the lower, wetter soil layer and in the zone where the main mass of roots is located in the soil.

This problem is solved due to the fact that the coulter of the stubble seeder for zero technology, including two plates located on the sides of the rear wall, with which the grain coulter made of a square tube is aggregated, has a guide plate for the ductwork inside the main rack and side plates, from bottom to the main stand and side plates at an angle of 25-45 ° is a soil intake plate protruding up to 10 mm from the sides of the main rack, at the back of the soil plate and from the bottom to the side plates a sealing plate, soil sampling and soil sealing plates form a sowing bed 40-50 cm higher than the depth of placement of mineral fertilizers, while the impact of the working bodies on the soil does not exceed 20% of the surface of the sown soil with stubble and stubble residues, and seedlings receive loosened space in the soil for them starting growth to a depth of the location of fertilizers 90-100 mm and a width of 40-50 mm.

The technical result provided by the given set of features is the possibility of applying the proposed model in seeders working without preliminary tillage in the case when the minimum exposure of the working bodies to the soil is not more than 20% of the soil surface occupied by stubble and the location of fertilizers in deeper and wetter layers of soil .

The essence of the utility model is illustrated by drawings: in Fig. 1 shows a side view of the opener; in fig. 2 is the same rear view.

The working body of the grain-tufted stubble seeder (side view of Fig. 1, rear view of Fig. 2) consists of a main rack 3 wedge-shaped and streamlined in the direction of movement of the form, to the lower part of which a replaceable cultivator 10 is attached, having the shape of a vertical wedge. Two plates 4 are welded to the back of the main rack on the sides, and a grain opener 5 made of a square tube is welded to them. Inside the main pillar and side plates, a guide plate 6 for the ductwork is welded. Bottom to the main pillar and side plates at an angle α, a soil intake plate 1 is welded, protruding from the sides of the main pillar up to 10 mm. A packer plate 2 is welded behind the bottom plate and bottom to the side plates 2. The seed stream 7 passes through the grain opener and exits into the hole 9 behind the grain opener. Hole 9 was made to exclude cases of clogging of the grain coulter with soil. The flow of fertilizers 8 immediately after the vertical wedge-shaped cultivator 10 enters the bottom of the furrow to a depth of 100 mm in the zone where the main mass of the roots is located.

The device operates as follows.

The working tool stand is mounted on the seeder frame. An outlet opening is attached to the main rack 3, which is located in the immediate vicinity of the tip of the cultivator 10. The seed tube is attached to the upper part of the grain opener 5. When the seeder is moving, the tip of the wedge-shaped cultivator 10 cuts into the stubble layer of the soil and spreads both the stubble layer and the layer of chopped straw, forming a furrow. Fertilizer granules 8 are sown from the pipelines into the furrow width tape. In this case, the lower part of the main rack 3 pushes the loosened soil and straw layer hanging over the fertilizers, the soil sampling plate 1 grabs and throws the soil from the edges of the upper part to the bottom of the furrow, and the soil compaction plate 2 levels and compacts the soil sowing bed for the subsequent movement of the grain opener 5. The grain opener 5 is located at a considerable distance behind the cultivator, which provides conditions for creating chveni seedbed of fertilizer furrow before it begin sown seeds. Seeds 7 go to the opener 5 through the vas deferens and flow to the prepared seed bed with a tape with the width of the furrow. Loosened lumps of soil randomly roll from the surface of the soil and from the sides of the furrow to the seeds and cover them, and the wedge-shaped roller compacts the sowing bed above the fertilizer and the soil above the seeds in the furrow.

Claims (1)

A stubble seeder coulter for zero technology, comprising a main pillar with two plates located on the sides of its rear wall, with which a grain coulter made of a square tube is mounted, a guide plate for the ductwork located inside the main pillar and side plates, a soil sampling plate welded to bottom of the main pillar and side plates at an angle of 25-45 ° and protruding up to 10 mm from the sides of the main pillar, packer plate welded to the back of the soil plate and bottom to side to the plates and forming a sowing bed with a soil intake plate 40-50 mm higher than the depth of placement of mineral fertilizers, while the impact of the working bodies on the soil does not exceed 20% of the surface of the sown soil occupied by stubble and stubble residues, providing loosened spaces for seedlings for their starting growth to the location fertilizers 90-100 mm deep and 40-50 mm wide.

Images