RU127280U1 - COMBINE HARVESTER - Google Patents

Abstract

A combine harvester containing a header, a straw chopper and spreader, and a tillage organ, characterized in that a cutter installed in the gap between the header and the chopper-spreader is used as a tillage organ.

Description

The utility model relates to agricultural engineering and can be used for tillage in conjunction with harvesting crops in one pass.

Known technology for harvesting crops with subsequent tillage (K.A.Sokht "Machine technology for cultivating crops" Krasnodar, 2001, p.25 ... 27 and p.256). According to this technology, the field is mulched with crushed plant residues simultaneously with the harvesting of the precursor. After harvesting the predecessor, the soil is loosened.

The disadvantage of this technology is the fact that the loosening of the soil is carried out with a large gap between the end of the harvest and the beginning of the tillage. So per day from 1 hectare 100 tons of moisture evaporate, which in turn reduces the yield of subsequent crops. In addition, loosening the soil immediately after harvesting on each specific field leads to a sharp simultaneous need for machine operators, which is not only economically impractical, but also practically impossible. In addition, the separate execution of operations of cleaning and loosening the soil leads to increased compaction of the soil, labor and fuel costs.

A device is known for harvesting grain crops and disposing of the non-cereal part of the crop (see RF patent No. 2307498, A01D 91/04 and A01D 41/08 (2006.01) - prototype) containing a header, chopper-spreader and tillage organ.

A significant drawback of these patents regarding combining harvesting, loosening the soil, preserving moisture and protecting the soil from erosion is:

- reduction of technical and economic indicators of combine harvesters in view of the use of energy-intensive tools, for example, disk harrows, the width of which is equal to the width of the header of the combine harvester;

- a decrease in the utilization factor of shift time due to an increase in the loss of time for turns, inconvenience in operation, and a decrease in technical and technological reliability;

- seeding of seeds of weed plants to an excessively large depth, due to which it is impossible to obtain more complete, earlier and more friendly seedlings of weeds for their subsequent destruction by mechanical treatments or herbicides;

- poor-quality operation of the units in view of the non-coincidence of agrotechnical requirements, so cleaning is done at a speed of 4-6 km / h, and disking is 8-12 km / h.

When treating the soil with light disk cultivators, the working bodies - the discs do not cut through the layer, even of crushed straw, scattered by the combine, as a result of which the soil is not processed to the required depth. Due to the insufficient depth of tillage, the concentration of crushed straw in the treated soil layer is increased, weed seeds lose contact with the soil and do not germinate for a long time, and most of them are preserved for a long time - until the next tillage and precipitation. When treating the soil with heavy disk harrows at the recommended tillage depth for them (at least 10 cm), the weed seeds fall to an excessively large depth for them and are not able to subsequently produce friendly seedlings, as a result of which the possibility of their destruction in one treatment with herbicides is lost or soil tillage for surface tillage. When trying to till the soil with disc harrows to the recommended depth (4 ... 5 cm), only small strips of soil are processed due to the large distance between the tracks of the disks, mixing the soil in these strips with an excessively large amount of chopped straw. Therefore, in these strips, weed seeds lose contact with the soil, and in untreated strips, weed seeds are not embedded in the soil at all, and as a result, the seedling dynamics decreases. It should also be noted that when cultivating the soil after harvesting cereal crops with simultaneous grinding of straw, the field is again exposed and dried out from the wind and the absence of shadowing of the field surface, and the operation of such aggregates is not convenient in view of their large kinematic length.

The technical result is to ensure effective retention of residual moisture in the soil, improve weed control and increase the utilization rate of shift time.

The technical result is achieved by the fact that in a combine harvester containing a header, a straw chopper-spreader and a soil cultivating organ, a shredder mounted in the gap between the header and the chopper is used as a soil cultivating organ.

The novelty of the claimed technical result lies in the fact that a tiller is used as a soil cultivating organ, which makes it possible to obtain amicable seedlings of small weed seeds by planting them into the soil to a depth of 2 ... 3 cm, thereby providing them with moisture and creating close contact with the soil. This condition can be ensured only when soil is cultivated after mowing on a clean stubble until the bulk of the non-grain part in the form of chopped straw from the combine chopper-spreader is scattered on the soil surface, followed by covering the already treated soil with chopped straw. At the same time, due to the fact that tillage is carried out simultaneously with harvesting, the tillage implement should be lightweight and, especially, low energy consuming. Therefore, it should be noted that the specific resistance of the tiller is less than the resistance of the disk harrow by 5 ... 6 times and is only an average of 50 ... 60 N.

The essence of the proposed technical solution is illustrated in Figure 1. In the combine harvester containing the header 1, the straw chopper 2 and the tillage organ 3, which uses a cutter installed in the gap between the header 1 and the chopper 2.

Combine harvester operates as follows. When the combine harvester, its header 1 cuts off the grain mass and feeds it into the threshing drum through an inclined chamber. Shtrigel 3, mounted on header 1 or between the header 1 and the chopper-spreader 2, treats the soil to a depth of 3 ... 4 cm, and the chopper-spreader 2 of the combine covers the newly treated soil with chopped straw. Such a soil treatment allows you to save residual moisture in the soil and the moisture of precipitation, to close the seeds of weeds to the required depth, to create close contact with the soil, to get friendly and complete seedlings of weeds, which can be easily removed after reaching the required phase of development herbicides or implements for surface tillage. In this case, it is possible to provide for raising and lowering the deadweight together with the header or separately on an autonomous suspension.

Claims (1)

A combine harvester containing a header, a straw chopper and spreader, and a tillage organ, characterized in that a cutter installed in the gap between the header and the chopper-spreader is used as a tillage organ.

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