RU2093004C1 - Method for harvesting biological cereal crops and utilization of nongrain part of crops - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves cutting off biological crop; threshing; collecting grain in hopper of grain combine; moistening nongrain part of crop with nitrogenous fertilizer solution by moistener-thrower and throwing it over field. EFFECT: increased efficiency and wider range of usage of nongrain part of crop. 2 cl, 4 dwg

Description

 The invention relates to the field of agriculture and may find application for harvesting crops in technology using straw for fertilizer.

 A known method of harvesting a biological crop of grain crops (Angileev S. G. Complex utilization of by-products of crop production. M. Rosagropromizdat, 1990, p. 12-23). In this method, the biological crop is mowed, threshed, while the grain is collected in the hopper of the harvesting machine, the straw is collected in the collector, and then dumped into the field in the form of kopen. The hocks are pulled together by draggers to the places of storage. Straw is transported from farms to farms, then returned to the soil in the form of manure.

 This method of harvesting a biological crop with the return of straw to the soil in the form of manure is associated with large transport traffic and with a large number of passes of heavy machinery across the field.

 A known method of harvesting a biological crop with the return of nutrients to the soil by scattering seeds during the harvesting process (Maslov GG Trubilin E.I. et al. Environmental technology for the use of straw for fertilizers. Recommendations. Krasnodar, 1994, pp. 14-20 )

 This technology has several options. In one embodiment, the biological crop is harvested by a combine harvester, for example, Don-1500 with a chopper PKN-1500B-01. After threshing and separation of the heap, the straw leaving the straw walker is chopped with a chopper and scattered across the field. Next, nitrogen fertilizers and peeling are applied.

 In another embodiment, the straw coming down from the straw walker is laid in a roll, then, with the help of a trailed picker-grinder, it is picked up, chopped and scattered across the field. Further, in the same way as in the first embodiment, nitrogen fertilizers are introduced and peeling is carried out.

 The disadvantages of this method are the need for additional technological operations, and therefore, the aisles of machines associated with the introduction of nitrogen fertilizers; insufficiently quality processing of straw with nitrogen fertilizers, and consequently, poor-quality humification of it in the soil; the difficulty of uniformly distributing the dry mass of straw across the field; increased energy consumption and low-quality grinding during the operation of grinders such as PUN, PKN.

 The technical solution to the problem is the most rational use of the non-cereal part of the crop (straw, descent from the screen) used as fertilizer due to better chopping with minimal energy consumption, more uniform distribution of this part of the crop on the field surface, and also due to a more economical and uniform coating particles of the non-cereal part of the crop with a substance that promotes humification. At the same time, nitrogen fertilizer, in contrast to the prototype, is introduced into the non-cereal part of the crop in the form of a solution with a humidifier-spreader before spreading it. The method facilitates the task of introducing trace elements and other substances introduced in small doses.

 The technical solution is achieved by cutting the biological mass, threshing it with separation of the resulting heap into the grain and non-grain parts of the crop, collecting the grain part of the crop for further use in food and feed, and returning the non-grain part of the crop back to the soil to replenish the humus content. Before chopping, the straw is flattened in the feeding apparatus of the disk chopper.

 The authors and the applicant regarding the novelty of the method see that, by chopping the straw with flattening the particles using a special disk grinder, treating the particles of the non-grain part of the crop in a humidifier-spreader with a solution of a substance that improves humification, they get an increase in the mass of particles, and therefore, more their uniform distribution over the field, reduction in the number of machine passes through the field in the general technological process and, as a result, the conservation of humus in the soil.

 According to the technical, scientific and patent documentation, no combination of features has been identified, such as in the claimed method, which indicates the materiality of the claimed features.

 In FIG. 1 shows a sweeper with a disk chopper with a device for moistening and spreading the non-grain part of the crop.

 In FIG. 2 shows a humidifier spreader, side view.

 In FIG. 3 shows a humidifier spreader, top view.

 In FIG. 4 shows a section AA in FIG. 2 fingers of the sprinkler humidifier.

 A method of harvesting a biological crop of grain crops and recycling the non-cereal part of the crop is as follows.

 The whole biological crop is mowed, threshed in the threshing device of the harvesting machine 1, the grain is collected in the hopper of the machine, and the straw coming from the straw walker is sent to the chopper 2. In the chopper, the straw is compressed by the corrugated disks of the counter device, while it is flattened, which increases the specific surface particles. Feeding apparatus compressed straw is fed to the cutting discs, due to which it is crushed. Flattened and shredded straw is fed to the humidifier-spreader 3, the gathering from cleaning the harvesting machine 1 (screen) can also be sent here.

 From the tank 4, the working solution is pumped to the tubular shaft 6 using the pump 5. From the tubular rotating shaft 6, the working solution enters the tubular fingers through the tangentially located openings 9, while acquiring a rotational movement along the longitudinal axis of the fingers.

 Leaving from the exit openings of fingers 8, the working solution turns into a finely dispersed state, covering with this sorption film particles of the non-cereal part of the crop. Moistened particles are discarded by fingers 7 of the humidifier-spreader 3. Due to the increase in their mass during moistening, the particles are evenly distributed over the field.

 The harvesting machine is a combine harvester 1, equipped with a special disk chopper 2, located in such a way that the straw coming from the straw walker enters the chopper. Under the grinder is a humidifier-spreader 3. The harvester is also equipped with a tank 4 for stocking working solution and a pump 5.

 As a straw chopper use a disk chopper, made according to the copyright certificate N 1158093 "Rice straw chopper" (authors Poroshin MV and others).

 The chopper consists of a cutting device made in the form of a rotor with gear cutting disks and spacer rings between them, as well as a counter device made in the form of two shafts with grooved disks and spacer rings between them. Moreover, the cutting discs are located opposite the spacer rings of the opposing device.

 The humidifier-spreader 3 consists of a rotating tubular shaft 6, to which the tubular fingers 7 with spray holes 8 are radially attached.

 The input of the working fluid into the tubular fingers 7 is made tangentially, which ensures the rotational movement of the working solution in the tubular fingers 7 and the output of the working solution through the spray holes 8 in a finely divided state.

Claims (2)

 1. A method of harvesting a biological crop of grain crops and utilizing the non-cereal part of the crop, including cutting off the entire biological mass, threshing with dividing the resulting heap into grain and non-cereal parts of the crop, collecting the grain part of the crop for later use in food and feed, as well as scattering the non-cereal part harvest in the field and the application of nitrogen fertilizer to improve its humification, characterized in that the nitrogen fertilizer in the non-grain part of the crop is applied in the form of a solution with a humidifier-spreader before scattering asyvaniem.  2. The method according to claim 1, characterized in that before moistening the non-cereal part of the crop, it is flattened in the feed apparatus of the grinder and crushed by a disk grinder.

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