EA020492B1 - Process for cultivation of farm crops and agricultural unit for implementation thereof - Google Patents

Abstract

The invention relates to agriculture, in particular to a process for cultivation of farm crops and to an agricultural unit for implementation thereof. The invention task is aimed at enhancing effectiveness of zero technology of growing agricultural crops, reducing power and labor consumption due to combining and changing the sequence of technological operations for one pass of advanced agricultural machine. The process for cultivation of farm crops includes direct sowing with closing sown furrow, fertilizing, treating by pesticides, harvesting and separating the harvest into marketable and non-marketable yield portions, chopping the none-marketable yield portion and its even distribution over field surface, wherein harvesting, direct sowing with closing sown furrow, separating harvest into marketable and non-marketable yield portions, chopping the none-marketable yield portion and its even distribution over field surface of mowed and sown field is carried out for one pass of an agricultural machine. For implementing the method an agricultural unit is used comprising a self-propelled chassis on which a technological equipment is arranged including a header mounted in front of the machine, plowshares behind the header in front of the chassis mounted on the frame or a beam, the plowshears have sowing branch pipes, working organs behind the plowshares for closing furrows, equipment for separating harvest into marketable and non-marketable yield portions, a hoper for the marketable portion, a chopper of non-marketable yield portion, at least one bin for seeds and, if necessary, at least one bin for fertilizers.

Description

The invention relates to agriculture, in particular to methods of cultivating crops and devices for their implementation.

A known method of lean farming and cultivation of crops - ΝΘ-ΤΙΕΕ technology, also called zero technology [1]. In accordance with this method, the soil is not subjected to mechanical treatment before sowing and in the process of caring for plants. When harvesting by aggregates on a self-propelled chassis, in particular a combine, harvesting is carried out, separation of the commodity and non-commodity shares of the crop, grinding of the non-commodity shares of the crop and its uniform distribution over the field surface to the width of the header. Herbicides are also used to control weeds. Sowing, the so-called direct sowing, is carried out on stubble and crop residues distributed over the field after harvesting using specialized stubble seeders, aggregated with a tractor and sowing various crops [1]. Openers of various designs are used in seeders, in particular single-disk, double-disk, anchor type, etc. During sowing, it is possible to simultaneously fertilize, for which the seeders are equipped with seed and fertilizer containers with dispensers that feed seeds and / or fertilizers to the sowing pipes of the pipelines. Sowing furrows are sealed with the help of working bodies of various designs, in particular with rolling wheels (rollers).

The use of ΝΘ-технологии technology ensures the conservation of moisture in the soil, protects the soil from overheating during droughts and from overcooling in extreme winter conditions, reduces the number of weeds in crops and soil erosion, and helps to restore the fertile layer.

However, sowing involves an additional passage of agricultural machinery across the field, which increases material and energy costs (fuel costs), contributes to additional soil compaction, which can adversely affect seed germination. In addition, when sowing, crop residues distributed over the surface of the field that produce toxic substances during decomposition that adversely affect seed germination can be included in the ovule. Sowing furrows are covered with a mixture of soil and crop residues, which, according to the authors, does not provide the maximum advantages of ΝΘ-технологии technology, compared with the case when the sown field is evenly covered with crop residues.

A well-known agricultural unit on a self-propelled chassis for harvesting crops, on which technological equipment is located, including a header fixed in front of the chassis on the body of the inclined conveyor of the mowed crop, equipment for separating the commodity and non-commercial share of the crop, a hopper for the commodity share of the crop, a chopper of non-commercial the crop share, located in the rear of the chassis spreader of crushed non-commercial crop share on the beveled aggregate of the field surface to the header width [2] .

The known unit has limited technological capabilities, as it performs only a number of technological operations, which are provided for by the ΝΘ-ΤΙΕΕ technology. For sowing, it is necessary to use specialized equipment with all the ensuing consequences described above.

The tasks to which the invention is directed are to increase the efficiency of zero crop cultivation technology, reduce energy and labor costs for work by combining and changing the sequence of technological operations carried out in one pass of an improved agricultural unit.

The problem is solved in that in the method of cultivating crops, including direct sowing with the closure of the sowing furrow, applying fertilizers, pesticides, harvesting, separation of marketable and non-commercial share of the crop, grinding of non-commercial share of the crop and uniform distribution over the field surface, harvesting, separation commodity and non-market share of the crop, grinding the non-market share of the crop and its uniform distribution over the surface of the field and direct sowing with the closure of the seed furrow is carried out one pass of an agricultural aggregate containing a header mounted along the direction of the aggregate, coulters with sowing pipe nozzles, seeding sowing furrows, working bodies, an aggregate chassis, in the rear of which there is a distributor of crushed non-market share of the crop, and even distribution of the crushed non-market share of the crop is carried out by beveled and plot of the field sown by the unit. Moreover, when sowing seeds and fertilizers are fed through the sowing nozzles of the piping of the unit together or separately.

The problem is solved in that for the implementation of the method, an agricultural unit containing a self-propelled chassis, on which technological equipment is located, including a header mounted in front of the chassis on the body of the inclined conveyor of the mowed crop, equipment for separating the commodity and non-commodity share of the crop, a hopper for commodity share of the crop, a grinder of a non-market share of the crop located in the rear of the chassis spreader of a crushed non-market share of the crop by beveled aggregate th surface to the width of the header field further comprises at least one container for the seeds, wherein the header of a width at its front chassis beam or on a frame mounted for vertical movement, fixed

- 1,020,492 spring-loaded coulters with sowing piping connected through a switchgear with a seed container, and the working bodies closing the sowing furrows are fixed to the coulters in the direction of movement of the unit on a frame or beam, or coulter racks. In this case, the unit may further comprise at least one fertilizer tank connected to the seed dispenser or to the sowing pipes of the pipelines through the fertilizer dispenser.

The design of the agricultural unit allows harvesting operations, direct sowing with sowing of the sowing furrow, application of fertilizers, separation of the commodity and non-commercial share of the crop, crushing of the non-commercial share of the crop and its uniform distribution over the field surface by the width of the header . The distribution of the crushed non-productive share of the crop is already carried out over the sown area of the field, which ensures the creation of a continuous coating of crop residues, their ingestion in the seed is prevented. It also helps to reduce the germination of weeds, there is a reliable shelter of crops from extreme temperature and other climatic influences (rain, hail, etc.), contributes to the accumulation and preservation of moisture in the soil, which, as a result, favorably affects the germination and growth of crops. Since cleaning and sowing are carried out in one pass of the unit, labor, energy costs and equipment wear are reduced, additional soil compaction does not occur, which helps to preserve its natural aeration.

Thus, the use of inventions will improve the efficiency of zero technology for the cultivation of crops, reduce labor and energy costs.

The invention is illustrated in the figure, which shows a General view of the unit for the cultivation of crops.

The following is one of the possible options for a specific implementation of the unit.

An agricultural unit for implementing the method of cultivating crops contains a self-propelled chassis 1, on which the processing equipment is located. The header 2 with reel 3 is fixed in front of the chassis 1 in the direction of movement of the unit on the housing 4 of the inclined conveyor of the mowed crop. On chassis 1, equipment is also placed for separating the commodity and non-commodity shares of the crop, a hopper for the commodity shares of the crop, a chopper of the non-commodity share of the crop (not shown in the figure). In the rear part of the chassis 1 there is a spreader 5 of shredded non-market share of the crop along the beveled surface of the field to the width of the reaper 2. On the body 4 of the inclined conveyor are mounted a container / containers for seeds 6 and, if necessary, for fertilizers 7, a frame / beam 8 with spring-loaded 9 coulter racks with sowing piping nozzles. For openers 9 in the direction of movement of the aggregate there are working bodies 10, which can be mounted on the frame / beam 8 or racks of openers 9, which are sowing grooves 9. The design of various working bodies and units of the aggregate is not an object of the present invention. In the unit, all known, including industrially produced, units, parts (working bodies) and their combinations performing basic technological operations can be used. So, for example, the spreader 5 can be made as a disk (centrifugal), and pneumatic (fan type), provided that the uniform distribution of crop shredded residues on the surface of the field. Depending on the type of soil, its physical and mechanical properties, the coulters 9 can be single-disc, double-disc, anchor, disk-anchor, etc. The sowing seed furrows working bodies 10 can be made in the form of discs, rollers, plate type, etc. The coulter racks 9 can be made height-adjustable, which will provide the possibility of regulating the seed sowing depth, including the possibility of installing the coulters 9 in the required position depending on the cut height of the crops by the header 2, which (height) is determined by the angle of inclination of the housing 4 of the inclined conveyor of the mowed crop. If the frame / beam 8, on which the coulter racks 9 are mounted, has an individual suspension on the chassis 1 of the unit, then the vertical movement of the coulters, including their transfer from the transport to the working position, is carried out by vertical movement (tilting) of the frame / beam. Racks of openers 9 can be hollow and pipelines for seeds and / or fertilizers can be located in racks. During sowing and the need to make a starting dose of fertilizers, sowing equipment versions are also possible, which are also well known. For example, when a mixture of seeds and fertilizers is introduced through the sowing pipes of pipelines, containers for seeds 6 and fertilizers 7 are connected (communicated) with a seed distribution device (not shown in the figure), made, for example, in the form of a screw that directs the mixture into pipelines. With separate seeding of seeds and fertilizers, containers 6 and 7 communicate with individual distributors for seeds and, respectively, for fertilizers, and then, through individual pipelines, seeds and fertilizers are fed to the sowing nozzles, some of which produce seeds and others sow fertilizers. For the simultaneous separate sowing of seeds and fertilizers, various design solutions are known and applied, including solutions that ensure the introduction of seeds and fertilizers at different levels or away from each other across the width of the sown field, which prevents contact of seeds and fertilizers. The use of one or another constructive solution of the working bodies of the sowing equipment depends on

- 2 020492 material capabilities of the manufacturer of the combined unit, as well as from the design features of the harvesting unit that performs harvesting, harvesting and distribution of crushed crop residues on the field surface. As a harvesting unit, any commercially available combine with a spreader (distributor) of shredded crop residues or a combine in which a node for distributing crop residues is being finalized can be used.

The agricultural unit is implemented on the basis of the German combine harvester ROKT8SNK1TT mod. E-517 with reaper 2 4 m wide. Openers 9 double-disc from the STZ-3,6 seeder (grain fertilizer seeder 3,6 m wide) are spaced to the width of reaper 2. Combined (double) tanks are installed on the body 4 of the inclined conveyor (left and to the right of the conveyor), separated by a partition and consisting of two compartments 6 and 7 for seeds and fertilizers, respectively. In each tank, individual screw and screw seed distributors are installed, which individually feed seeds and fertilizers to individual seed tubes through individual flexible pipelines. On the coulter stands behind them, in the direction of movement of the aggregate, lamellar-type working bodies 10 are installed, which close the sowing furrow. At the rear of the chassis there is a spreader 5 of crushed mass of crop residues of a pneumatic (fan) type with a shredder of crop residues.

The method of cultivation of crops is as follows.

Crop plants are mowed by header 2 and transported by an inclined conveyor for further processing. Special technological equipment located on the chassis 1, carries out the separation of commodity and non-commodity share of the crop. The commodity share of the crop is sent for collection to the hopper, and the non-commodity share of the crop is sent for grinding. When the unit moves simultaneously with the harvest, the coulters 9 located on the frame / beam to the width of the header 2 form sowing furrows, in which seeds and, if necessary, fertilizers are sown through pipelines through the sowing nozzles. Located behind the coulters 9 along the movement of the unit, the working bodies 10 close up (close) the sowing furrows. The crushed non-marketable share of the crop (crushed crop residues) is sent to the spreader 5 located in the rear of the chassis 1, which evenly distributes them over the field section that is mowed and seeded by the unit. Harvested at the edge of the field from the hopper is loaded into vehicles. If necessary, equipment for subsurface spreading or surface distribution of herbicides, which are also carried out in one pass of the unit, can be mounted on the unit. As with the existing zero crop cultivation technology, it is recommended to use crop rotation, which helps to reduce weed growth, reduce the incidence of crops, optimizes the use of nutrients and moisture.

An example implementation of the proposed method.

At the end of June 2009, wheat was harvested with simultaneous sowing of millet. At the end of September of the same year, when harvesting millet, winter barley was simultaneously sown. At the end of June 2010, barley was harvested with simultaneous sowing of sunflower. In mid-October 2010, wintering peas were sown when harvesting sunflower seeds, harvesting of which is scheduled for late May - early June 2011. Thus, twice a year during harvesting, the next crop was sown simultaneously with a continuous coating of the sown field with a crushed non-commodity crop share . Visually, good weed control was observed, along with the use of herbicides, the consumption of which was reduced. The number of passes of equipment across the field was reduced, which significantly reduced soil compaction and the consumption of fuels and lubricants by about half.

The use of inventions can reduce time, labor and energy costs, since harvesting and sowing are carried out in one pass of the unit. During the year, you can carry out 2-3 harvesting and sowing campaigns. The distribution of crop residues is already carried out on the sown field, which excludes the possibility of their penetration into the seed and provides continuous cover of the sown field. All this increases the effectiveness of zero crop cultivation technology.

Information sources

1. Technology of lean farming BEREGINA, 2011, information from the site

Lp: //№№№.r1ida.pe1/1esbpo1o§u/aBoi1/

2. KI 2211556 C2.

Claims (6)

CLAIM 1. The method of cultivation of agricultural crops, including direct sowing with the closure of the sowing furrow, fertilizer application, processing with pesticides, harvesting, separation of the commodity and non-marketable crop shares, grinding of the non-marketable crop fraction and its uniform distribution over the field surface, characterized in that the harvest, the separation of the commodity and non-marketable fractions of the crop, the grinding of the non-marketable fractions of the crop and its uniform distribution over the field surface and direct sowing with the closure of the sowing furrow are carried out in one pass with Agricultural unit containing installed on the direction of travel of the unit header, openers with seeding pipes of pipelines, working bodies sown furrows, chassis of the unit, in the back of which the distributor of crushed non-marketable crop share is placed, and uniform distribution of chopped non-marketable crop share is carried out on the sloped and sown unit plot field. 2. The method according to claim 1, wherein, when sowing, seeds and fertilizers are fed through the seed pipes of the unit pipelines together. 3. The method according to claim 1, in which when sowing seeds and fertilizers are fed through the seeding pipes of pipelines separately. 4. Agricultural unit for implementing the method according to claim 1, containing a self-propelled chassis that houses technological equipment, including a header, mounted in front of the chassis along the direction of the unit on the body of the inclined conveyor of the oblique crop, equipment for separating the commodity and non-commodity crop shares, the bunker for of the commodity share of the crop, the grinder of the non-commodity share of the crop, located in the rear part of the chassis; the spreader of the crushed non-commodity share of the crop along the width of the field surface mowed down by the aggregate Attacks, characterized in that it additionally contains at least one seed tank, while the reaper openers are attached to the chassis on the frame or beam, installed with the possibility of vertical movement, with seeding pipes of pipelines connected via switchgear capacity for the seeds, and the working bodies closing up the sowing furrows are assigned to the openers in the course of the unit's movement on the frame or beam or the openers racks. 5. The agricultural unit according to claim 4, further comprising at least one fertilizer tank associated with a seed dispenser. 6. The agricultural unit according to claim 4, further comprising at least one fertilizer tank connected to the seed pipes of the pipelines via a fertilizer distributor.