MD593Z - Process for cultivation of farm crops and unit for implementation thereof - Google Patents

Abstract

The invention relates to agriculture, in particular to a process for cultivation of farm crops and to a unit for implementation thereof.The process for cultivation of farm crops includes the operations: direct sowing with embedding of the drill furrow, fertilization, mowing of the harvest, separation of marketable and unmarketable part of the harvest, crushing of unmarketable part of the harvest and its uniform distribution on the surface of the field. All operations are performed during a single passage of the agricultural unit. At the same time, sowing and fertilization is carried out through the supply of seeds and fertilizers, in mixture or separately, and the uniform distribution on the surface of the field of the crushed unmarketable part of the harvest is carried out on the site of mown and sown field.The agricultural unit comprises a self-propelled chassis (1), on which are placed: a harvester (2), an inclined conveyor (4) for the mown harvest, an equipment for separation of marketable and unmarketable part of the harvest, a bin for marketable part of the harvest, a device for grinding of unmarketable part of the harvest, a spreader (5) of the unmarketable part of the harvest. At the same time, on the body of the inclined conveyor (4) are mounted a capacity/capacities for seeds (6) and fertilizers (7), a frame or a beam (8), on which are mounted openers (9) by means of spring-loaded racks with sowing branch pipes of the pipelines for seeds and/or fertilizers, coupled through a distributor with the capacity for seeds (6), and behind the openers (9) are fixed drill furrow embedding tools (10).

Description

The inventions relate to agriculture, in particular to a process for cultivating agricultural crops and to an aggregate for carrying it out.

The method of cultivating agricultural crops, also called zero technology, is known. According to this method, the soil is not subjected to mechanical processing before sowing and in the process of caring for plants. During harvesting with motor-driven chassis units, in particular with a combine, the crop is harvested, separated into commercial and non-commercial parts, crushed into non-commercial parts and evenly distributed over a field area equal to the width of the harvesting machine. Herbicides are also used to combat weeds. Sowing, the so-called direct sowing, is carried out in stubble and crop residues, distributed over the field after harvesting with the help of seeders, which are connected to the tractor and perform sowing of various agricultural crops. In seeders, coulters of various designs are used, in particular with one disk, two disks, anchor type, etc. During the sowing operation, it is possible to simultaneously introduce fertilizers. For this purpose, the seed drills are equipped with seed and fertilizer containers with distribution devices that deliver the seeds and/or fertilizers to the seed outlet pipe connections. The sowing furrows are closed with the help of working elements of various designs, in particular with the help of roller wheels (rollers) [1].

The use of zero technology ensures the maintenance of moisture in the soil, protects the soil against overheating during drought and against overheating in extreme winter conditions, reduces the number of weeds in crops and prevents soil erosion, and contributes to the regeneration of the fertile layer.

However, the sowing operation requires additional movement of agricultural machinery over the field, increasing material and energy costs (fuel costs), and additionally tamping the soil, which can have a negative impact on the germination capacity of seeds. In addition, during the sowing operation, crop residues distributed over the field surface, which during decomposition emit toxic substances that negatively affect the germination capacity of seeds, can reach the seed germination bed. The sowing furrows are clogged with a mixture of soil and crop residues, which, in our opinion, does not ensure the maximum properties of zero technology, compared to the case when the sown field is uniformly covered with crop residues.

The process of cultivating agricultural crops is also known, which includes the operations: direct sowing with filling the sowing furrow, harvesting the crop, separating the commercial and non-commercial parts of the crop, shredding the non-commercial part of the crop and distributing it evenly over the field surface. At the same time, harvesting the crop and sowing are carried out simultaneously during a single pass of the agricultural machinery unit, the uniform distribution of the shredded non-commercial part of the crop is carried out over the mowed and sown field sector.

The agricultural machinery assembly for carrying out the process includes a chassis with a motor, a harvesting machine mounted in front of the chassis in the direction of movement of the assembly, with equipment for separating the commercial and non-commercial parts of the crop, a bunker for the commercial part of the crop, a device for crushing the non-commercial part of the crop and spreading it on the surface of the field mowed with the assembly, located at the rear of the chassis, a sowing equipment, seed container/containers, coulters with connections for seed drainage pipes, also after the harvesting machine, across its width, in front of the chassis on a frame or on a bar are placed working elements that plug the sowing furrows [2].

The known process and aggregate do not provide for the simultaneous introduction of fertilizers.

The problems to which the present inventions are directed are increasing the effectiveness of the zero-till technology for cultivating agricultural crops, reducing energy and labor costs for performing work based on combining and changing the sequence of technological operations performed during one pass of the improved agricultural machinery aggregate.

The proposed problems are solved by the fact that the process of cultivating agricultural crops includes the following operations: direct sowing with sealing the sowing furrow, introducing fertilizers, harvesting the crop, separating the crop into commercial and non-commercial parts, crushing the non-commercial part of the crop and its uniform distribution over the field surface. All operations are performed during a single pass of the agricultural machinery unit (specified below). At the same time, sowing and introducing fertilizers are performed by dispensing seeds and fertilizers in a mixture or separately, and the uniform distribution of the crushed non-commercial part of the crop is performed over the mowed and sown field sector.

The agricultural machinery assembly for carrying out the process contains a self-propelled chassis, on which are placed: a harvesting machine, fixed in front of the chassis in the direction of movement of the assembly on the body of an inclined conveyor for the mowed crop, equipment for separating the crop into commercial and non-commercial parts, a bunker for the commercial part of the crop, a device for crushing the non-commercial part of the crop, a device for distributing the non-commercial part of the crop, located in the rear part of the chassis. At the same time, on the body of the inclined conveyor are mounted a container/containers for seeds and fertilizers, a frame or a bar installed with the possibility of vertical movement, on which after the harvesting machine, on its width, in front of the chassis, some coulters are mounted by means of arched bars with sowing connections of the seed and/or fertilizer discharge pipes, connected by a distribution device to the seed container. After the coulters, in the direction of movement of the aggregate on the frame or on the bar, or on the coulter bars, working elements for closing the furrows are fixed, and the container/containers for fertilizers are connected to the seed distribution device or to the sowing connections of the seed and/or fertilizer discharge pipes by a fertilizer distribution device.

The constructive execution of the agricultural machinery unit allows during a single pass to perform the following operations: harvesting the crop, direct sowing with closing the sowing furrow, introducing fertilizers, if necessary, separating the commercial and non-commercial part of the crop, crushing the non-commercial part of the crop and distributing it evenly over a field area equal to the width of the harvesting machine. The distribution of the crushed non-commercial part of the crop is carried out on the already sown field sector, which ensures the creation of a complete covering layer of crop residues, excluding the case of their falling on the seed germination bed. This also contributes to reducing the germination capacity of weeds, creates a safe shelter for the crops against extreme temperature and other climatic effects (rain, hail, etc.), contributes to the accumulation and maintenance of moisture in the soil, which, as a result, has a positive impact on the germination quality and growth of agricultural crops. Since harvesting, sowing and fertilizer application are carried out during a single pass of the aggregate, labor and energy costs are reduced, equipment wear is reduced, and additional soil compaction is not carried out, contributing to maintaining its natural aeration.

Therefore, the application of the proposed inventions offers the possibility of increasing the effectiveness of zero-till technology for cultivating agricultural crops, and of reducing labor and energy costs.

The inventions are explained by a drawing, which presents the general image of the aggregate for cultivating agricultural crops.

Below is presented one of the possible variants of concrete execution of the aggregate.

The agricultural machinery unit contains a self-propelled chassis 1, on which are placed: a harvesting machine 2 with a rake 3, an inclined conveyor 4 for the mowed crop, equipment for separating the crop into commercial and non-commercial parts (not indicated in the drawing), a bunker for the commercial part of the crop, a device for crushing the non-commercial part of the crop, a distribution device 5 for the non-commercial part of the crop. At the same time, on the body of the inclined conveyor 4, a container/containers for seeds 6 and for fertilizers 7 are mounted, a frame or a bar 8 on which some coulters 9 are mounted by means of arched bars with sowing connections of the seed and/or fertilizer drainage pipes, connected by a distribution device to the seed container 6, and after the coulters 9, working elements 10 are fixed for closing the furrows.

The constructive execution of some or other working bodies and subassemblies of the aggregate is not the problem of the present invention. In the aggregate can be used all the subassemblies, parts (working bodies) and their combinations already known, including those produced industrially, which perform the main technological operations. For example, the distribution device 5 can be executed both with disks (centrifugal), and pneumatic (fan type), provided that the uniform distribution of the shredded crop residues on the field surface is performed. Depending on the type of soil, its physical and mechanical properties, the coulters 9 can be made with one disk, two disks, with an anchor, with disks and an anchor, etc. The working elements 10 that close the sowing furrows can be made in the form of disks, rollers, lamellas, etc. The coulter bars 9 can be made height-adjustable, which will ensure the possibility of adjusting the seed sowing depth, including the possibility of installing the coulters 9 in the required position depending on the height of cutting the agricultural crops with the harvesting machine 2, which (height) is determined by the angle of inclination of the body 4 of the inclined conveyor for the mowed crop. If the frame/bar 8, on which the coulter bars 9 are fixed, has an individual attachment device on the chassis 1 of the unit, then the vertical movement of the coulters, as well as their transition from the transport position to the working position is carried out by vertical movement (tilting) of the frame/bar. The coulter bars 9 can be made hollow, and the seed or fertilizer discharge pipes can be placed in the bars. During the sowing process and the introduction of the initial dose of fertilizers, variants of the execution of the sowing machine are possible, which are also well known. For example, during the introduction of the seed and fertilizer mixture through the seed discharge pipe connections, the seed containers 6 and fertilizer 7 connect (communicate) with the seed distribution device (not shown in the drawing), made, for example, in the form of a screw, which directs the mixture into the pipes. During the separate discharge of the seeds and fertilizers, the containers 6 and 7 communicate with the individual seed and fertilizer distribution devices, respectively, and then, through the individual pipes, the seeds and fertilizers are discharged to the seed discharge connections, some of which discharge the seeds, and others discharge the fertilizers. For the separate simultaneous discharge of seeds and fertilizers, various constructive solutions are known and used, including solutions that ensure the introduction of seeds and fertilizers at different levels or to one side of each other across the width of the sown field sector, which prevents the contact of seeds with fertilizers. The use of one or another constructive solution of the working bodies of the sowing machine depends on the material capabilities of the manufacturer of the combined unit, as well as on the constructive features of the harvesting unit, which performs harvesting, gathering the crop and distributing the crushed crop residues on the field surface. Any industrially produced combine with a device for distributing crushed crop residues, or a combine in which the subassembly for distributing crop residues is perfected, can be used as a harvesting unit.

The agricultural machinery unit is made on the basis of the German FORTSCHRITT combine harvester mod. E-517 with a 4 m wide harvester 2. The two-disc coulters 9 from the СТЗ-3.6 seeder (a 3.6 m wide grain and mineral fertilizer spreader) are located across the width of the harvester 2. Combined containers (pairs, on the right and left sides of the conveyor) are mounted on the body 4 of the inclined conveyor, separated by a wall and consisting of two compartments 6 and 7 for seeds and fertilizers, respectively. In each compartment, individual seed and fertilizer distribution devices of the auger (screw) type are installed, which through individual flexible pipes separately deliver seeds and fertilizers to the individual seed discharge connections. On the coulter bars 9, after them, in the direction of movement of the aggregate, lamellar working elements 10 are installed, which close the furrows for sowing. In the rear part of the chassis, a pneumatic device for distributing the mass of crushed crop residues (fan) with a device for final crushing of crop residues is located.

The process of cultivating agricultural crops is carried out in the following way.

Crop plants are mowed by the harvester 2 and transported by the inclined conveyor to further processing. The special technological equipment, located on the chassis 1, separates the commercial and non-commercial parts of the crop. The commercial part of the crop is sent for harvesting in the bunker, and the non-commercial part of the crop is sent for crushing. During the movement of the aggregate, simultaneously with the harvesting of the crop, the coulters 9, located on the frame/width bar of the harvester 2, form sowing furrows, into which the seeds and, if necessary, fertilizers are drained through the seed drainage pipes and connections. Located after the coulters 9, in the direction of movement of the aggregate, the working bodies 10 plug (cover) the sowing furrows. The crushed non-commercial part of the crop (crushed crop residues) is directed to the distribution device 5, located at the rear of the chassis 1, and the distribution device 5 distributes them evenly over the field sector mowed and sown with the aggregate. The crop collected at the edge of the field is unloaded from the bunker into transport vehicles. If necessary, the aggregate can be equipped with equipment for introducing herbicides into the soil or distributing them on the soil surface, which is also carried out during a single pass of the aggregate. As in the well-known zero-till technology of cultivating agricultural crops, it is recommended to apply crop rotation, which contributes to reducing the growth of weeds, reducing the risk of crop diseases and optimizing the use of nutrients and moisture.

The application of the inventions allows to reduce temporary, labor and energy costs, since the harvest and sowing are carried out during a single pass of the aggregate. During the year it is possible to carry out 2…3 harvesting-sowing campaigns. The distribution of crop residues is carried out on the already sown field, which excludes the possibility of their penetration into the seedbed and ensures complete coverage of the sown field. All this increases the effectiveness of the zero-till technology of cultivating agricultural crops.

1. Технология бережливого земеледелия "Берегиния", 2011, Found Internet

<URL: http://www.pluga.net/technology/about/>

2. EP 0640276 A1 1995.03.01

Claims (2)

1. Process for cultivating agricultural crops, which includes the operations: direct sowing with sealing the sowing furrow, introducing fertilizers, harvesting the crop, separating the crop into commercial and non-commercial parts, crushing the non-commercial part of the crop and distributing it uniformly over the field surface, all operations are performed during a single pass of the agricultural machinery unit defined in claim 2, at the same time, sowing and introducing fertilizers are performed by dispensing seeds and fertilizers in a mixture or separately, and the uniform distribution of the crushed non-commercial part of the crop is performed over the mowed and sown field sector. 2. Agricultural machinery assembly comprising a self-propelled chassis, on which are placed: a harvesting machine, fixed in front of the chassis in the direction of movement of the assembly on the body of an inclined conveyor for the mowed crop, equipment for separating the crop into commercial and non-commercial parts, a hopper for the commercial part of the crop, a device for crushing the non-commercial part of the crop, a device for distributing the non-commercial part of the crop, located in the rear part of the chassis, at the same time, on the body of the inclined conveyor are mounted a container/containers for seeds and fertilizers, a frame or a bar installed with the possibility of vertical movement, on which after the harvesting machine, on its width, in front of the chassis, some coulters are mounted by means of arched bars with sowing connections of the seed and/or fertilizer discharge pipes, joined by a distribution device with seed container; after the coulter, in the direction of movement of the aggregate on the frame or on the bar, or on the coulter bars, working elements for closing the furrows are fixed, and the fertilizer container/containers are connected to the seed distribution device or to the seeding connections of the seed and/or fertilizer discharge pipes through a fertilizer distribution device.