RU2818365C1 - Method for drip irrigation of small-seeded crops and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method consists in sowing rows of plants separated by irrigated and dry spacings, with formation of compacted sections in the middle of irrigated spacings, in laying pipelines with droppers and watering with water supply from droppers. Compacted sections are made in the form of hollows with width of 10–15 cm and depth of 2–3 cm for the entire length of the row spacing with side layers to rows of a small-seeded crop, carried out through a distance corresponding to the value of capillary transfer of moisture by the soil of the irrigated area to the protective zone of rows of the sown crop. Pipelines with droppers are laid along the bottom of hollows. Device for implementation of the above method comprises a tractor, to the front part of which ends of two beams attached to, joined with each other by crossbar coupled with hydraulic cylinder of tractor hydraulic system. Axle is fixed on opposite ends of beams. On the axle there are rollers with width of 10–15 cm, the number of which depends on the number of irrigated row spacings processed in one pass of the tractor. Edges of rollers have bent inward sides with through slots, through which bolts with nuts are passed, providing connection of roller with brackets of side sealing elements, made in the form of box-shaped bodies with retractable plates with width of 8–10 cm, equipped with retainers.

EFFECT: enabling creation of favorable conditions for uniform soil moistening at sowing depth during call watering by formation of compacted hollows with side layers to rows of small-seeded crops in irrigated spacings.

2 cl, 4 dwg

Description

The proposed invention relates to the field of agriculture and will find application in drip irrigation of crops with small seeds on soils of light texture.

There is a known method of combined subsurface irrigation of small-seeded agricultural crops, including subsurface irrigation with capillary transfer of moisture into the root layer and additional post-sowing sprinkling. (RF Pat. No. 2743380, IPC A01G 25/06, publ. 2021, Bulletin No. 5).

The disadvantage of this method is the need to build two irrigation systems on one site: for subsurface irrigation and for sprinkling. At the same time, in a zone of unstable moisture, a sprinkler system can only be useful for carrying out a single post-sowing irrigation, since after seedlings have been produced, the intrasoil water supply will provide the necessary moisture regime in the root layer, and sprinkling can cause the formation of a soil crust, which worsens the air regime of the soil.

There is a known method of drip irrigation, which includes, when sowing, laying a pipeline with droppers into the soil along rows of plants to a depth of 5-15 cm and subsequent irrigation (Pat. No. 2776206, A01G 25/00, publ. 2022, Bulletin No. 20).

The disadvantage of this method of drip irrigation is the insufficient moisture of the top layer of soil at the sowing depth of small-seeded crops (1.5-2.0 cm) associated with the destruction of soil capillaries during the installation of pipes with drippers. Therefore, during the first watering, water from the drippers will flow down through the non-capillary pores, leaving the top layer of soil dry. When cultivating small-seeded crops such as carrots and chives, when sowing in dry weather, the emergence of seedlings will be delayed until precipitation falls.

There is a known method of drip irrigation of potatoes, which includes planting potatoes in rows separated by dry and moistened row spacing, forming compacted areas in the middle of the moistened row spacing in the form of cone-shaped holes 5-10 cm deep and 10-15 cm in diameter, laying pipelines with droppers over these holes and carrying out irrigation with water supply from droppers.

To implement the proposed method, a device mounted on a row-crop tractor is used. It consists of two beams connected to each other by a transverse crossbar coupled with a hydraulic cylinder of the tractor hydraulic system; at the opposite ends of these beams an axis is fixed, on which, at a distance corresponding to a given layout of pipelines with droppers, several bushings with radial spokes consisting of a pipe are installed with retractable rod. At the end of each rod there is a conical stamp with a diameter of 10-15 cm and a height of 5-10 cm. (RF Pat. No. 2789862, IPC A01G 25/00, publ. 2023, Bull. No. 5).

The disadvantage of this method during the first irrigation is the release of water from the holes into the loosened soil below the sowing depth of small-seeded crops - (1.5-2.0 cm). If in potato fields this is a positive factor, since it reduces evaporation from the field surface, then when irrigating small-seeded crops it plays a negative role, since there are no capillary pores in the soil loosened during sowing, which disrupts the moistening of the seed sowing zone to the moisture level, necessary for their germination.

The method of drip irrigation of small-seeded crops can eliminate these disadvantages, including sowing rows of plants separated by irrigated and dry row spacing, with the formation of compacted areas in the middle of the irrigated row spacing, laying pipelines with droppers and carrying out irrigation with water supply from droppers, in which, according to the proposed invention, compacted plots are made in the form of hollows 10-15 cm wide and 2-3 cm deep for the entire length of the row spacing with lateral layers to the rows of small-seeded crops, carried out through a distance corresponding to the value of capillary moisture transfer from the soil of the irrigated area to the protective zone of the rows of the sown crop, and pipelines with droppers are laid along the bottom of the hollows.

A device for implementing the proposed method, including a tractor, to the front part of which are attached the ends of two beams, interconnected by a transverse crossbar coupled with a hydraulic cylinder of the tractor's hydraulic system; at the opposite ends of these beams an axle is fixed, on which, according to the proposed invention, rollers with a width of 10 are installed -15 cm, the number of which depends on the number of irrigated row spacings processed in one pass of the tractor, while the edges of the rollers have sides bent inward with through slots through which bolts and nuts are passed, ensuring the pairing of the roller with the brackets of the side sealing elements, made in the form of box-shaped cases with retractable plates 8-10 cm wide, equipped with latches.

A new positive result from the application of the proposed method using the proposed device is that in a plot irrigated by the drip method, with insufficient moisture during the sowing period to obtain friendly shoots, favorable conditions are created for uniform soil moisture at the sowing depth during call irrigation by forming in the irrigated between rows of compacted hollows with lateral layering to rows of small-seeded crops.

The essence of the invention is illustrated by drawings, where in Fig. Figure 1 shows a fragment of a small-seeded crop sowing area, including rows of seeds and row spacing, plan view; in fig. 2 - tractor with attachments for forming hollows, side view; in fig. 3 - tractor with attachments for forming hollows with pipeline laying, top view; in fig. 4 - skating rink, front view.

In plot 1, rows of seeds 2 are sown, forming seeding strips 3, separated by row spacing: irrigated 4 and dry 5. In the middle of the irrigated row spacing 4, after sowing, compacted hollows 6 with layering 7 are made. At the same time, pipelines 8 with droppers 9 are laid along the bottom of the hollows 6. The making of hollows 6 and the laying of pipelines 8 is carried out using a unit consisting of a tractor 10, to the front part of which are attached the ends of two beams 13, connected to each other by a transverse crossbar 12, coupled with the hydraulic cylinder 11 of the tractor hydraulic system. At the opposite ends of these beams there is an axis 14, on which several rollers 15 with a width of 10-15 cm are installed. The number of rollers depends on the number of irrigated rows processed in one pass of the tractor. In this case, the edges of the rollers 15 have sides 18 bent inwards with through slots 19, through which bolts 20 with nuts 21 are passed, ensuring the pairing of the roller with the brackets 22 of the side sealing elements 16, made in the form of box-shaped housings with retractable plates 23 8-10 cm wide, equipped with clamps 24.

The implementation of the method of drip irrigation of small-seeded crops using the proposed device is carried out in the following sequence:

In plot 1, after pre-sowing tillage, a small-seeded crop is sown using a grain-grass seeder, which has a roller installed behind each sowing coulter, ensuring compaction of the soil in the protective zone of seed row 2 (10-15 cm). Sowing is carried out in strips 3, consisting of several rows of seeds 2. The strips are separated from each other by irrigated row spacing 4 and dry row spacing 5. During the sowing process, the seeds are placed at a given sowing depth. After sowing in the irrigated row spacing 4, with the help of equipment mounted on the tractor 10, compacted depressions 6 with branches 7 are made. Simultaneously with the execution of the depressions 6, pipelines 8 with droppers 9 are laid in them. Before performing these works, the working equipment is adjusted. It is produced taking into account the physical and mechanical properties of the soil. The length of the axis 14 corresponds to the working width of the seeder, and the rollers 15 are placed on it according to the number and arrangement of irrigated row spacing. The side sealing elements 16 are mounted on rollers 15, attaching them with brackets 22 to the sides 18 using bolts 20 with nuts 21 passed through slots 19. The distance between them corresponds to the amount of capillary moisture transfer in the soil of the irrigated area. After installing the elements 16, their length is adjusted to the distance to the protective zone of the seed rows 2. To do this, the plates 23 are extended to the required distance and secured with clamps 24. As the wheels of the tractor 10 move along the dry row spacing 5, in the irrigated row spacing 4, hollows 6 with bends 7 are formed and lay pipelines 8 in the hollows, unwinding them from the drums 17. When making hollows 6 and bends 7, their bottom is compacted with the formation of capillary pores, which form a single system with the capillary pores of the compacted protective strip of seed rows 2. After completing the laying of pipelines 8 at humidity Soils below 60% NV produce call-out irrigation, supplying water from droppers 9 into depressions 6. Here the water is absorbed by the soil and moves through the capillary pores in the depressions 6 and branches 7 into the capillary pores of the protective zones of the seed rows 2, moistening the soil at the depth of sowing the seeds to the level 80-90% NV.

Let us consider the implementation of the proposed method using the example of growing carrots with drip irrigation on sandy soils under conditions of insufficient soil moisture during the sowing period:

Sandy soils are the most suitable for growing carrots, as they allow you to obtain smooth, straight root crops with a high percentage of marketable product yield. The optimal time for sowing carrots is mid-May. It is during this period that the “May” drought is often observed, which, in combination with the drying out of the soil during its pre-sowing treatment, leads to a decrease in humidity below the level necessary for seed germination. In this regard, in order to obtain vigorous shoots in the absence of rain, it is necessary to carry out emergency irrigation to increase soil moisture to the optimal level - 85-90% NV. Sowing was carried out with a grain-grass seeder equipped with compaction rollers to form a seeding strip consisting of two rows of seeds 2. The distance between the rows of seeds 2 is 10 cm, the protective zone from the row of seeds 2 to the edge of the seeding strip is 5 cm. During the sowing process, the compaction rollers of the seeder produced compaction protective zones of rows 2. The total width of the seeding strip 3 from two rows of seeds 2 is 20 cm. When sowing, an irrigated row spacing 4 30 cm wide was formed between two seeding strips 3. On both sides of adjacent seeding strips, dry row spacing 5 60 cm wide, intended for tractor wheels 10. After sowing was completed, hollows 6 with bends 7 were formed and pipelines 8 with droppers 9 were laid out. To perform these operations, the working parts of the unit were adjusted. The side sealing elements 16 were installed on the rollers 15 after 10 cm (which corresponds to the value of capillary transfer in sandy soils), their brackets 22 were attached to the sides 18 through the slots 19 with bolts 20 and nuts 21. After securing the elements 16, their length was increased to 10 cm. In this case, the plates 23 were extended to the required distance and secured in this position with clamps 24. After the tractor 10 drove to the edge of the field, the drums 17 were placed in the alignment of the middle part of the irrigated row spacing 4, the rollers 15 were moved to the working position. While the tractor was moving across the field, compacted depressions 6 were formed and pipelines 8 were laid in them, unwinding from drums 17. After completion of laying the pipelines 8 into the depressions 6, at soil moisture below 60% HB, irrigation was carried out by supplying water from droppers 9 to the depressions 6. Here, the water was absorbed by the soil and moved through the capillaries formed when making the depressions 6 into the branches 7, and from them into the capillaries of the compacted layer of soil in the protective zone of the seed rows 2, moistening it to the level of 75-80% HB. After reaching a given humidity level, watering was stopped. During subsequent irrigations, the system of capillary pores of the trough 6 and outlets 7 ensured reliable transfer of moisture from the droppers 9 to the rows of carrot plants. At the same time, the presence of loosened areas between branches 7 maintained a favorable water-air regime of the soil in the zone of the plant root system.

Thus, the use of the proposed method of drip irrigation of small-seeded crops using the proposed device makes it possible to maintain an optimal level of soil moisture both during the period of germination and during the growing season of small-seeded crops.

Claims (2)

1. A method of drip irrigation of small-seeded crops, including sowing rows of plants separated by irrigated and dry row spacing, with the formation of compacted areas in the middle of the irrigated row spacing, laying pipelines with droppers and carrying out irrigation with water supply from droppers, characterized in that the compacted areas are made in the form hollows 10-15 cm wide and 2-3 cm deep for the entire length of the row spacing with lateral layering to the rows of small-seeded crops, carried out through a distance corresponding to the amount of capillary moisture transfer by the soil of the irrigated area to the protective zone of the rows of the sown crop, and pipelines with drippers are laid along the bottom hollows. 2. A device for implementing the method according to claim 1, including a tractor, to the front part of which are attached the ends of two beams connected to each other by a transverse crossbar coupled with a hydraulic cylinder of the hydraulic system of the tractor; an axle is fixed at the opposite ends of these beams, characterized in that on the axle rollers with a width of 10-15 cm are installed, the number of which depends on the number of irrigated row spacings processed in one pass of the tractor, while the edges of the rollers have sides bent inwards with through slots through which bolts and nuts are passed, ensuring the pairing of the roller with the brackets of the side sealing elements, made in the form of box-shaped cases with retractable plates 8-10 cm wide, equipped with locks.