RU2626171C1 - Grain harvesting aggregate - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: grain harvesting aggregate includes a combine harvester with a header, a control cab, a chassis, working elements and drives, as well as a power plant and a trailer container for harvesting. The power plant is fixed with threaded fasteners to the frame and the rear wall of the trailer container. Screw jacks are arranged in the lower part of the power plant. A reloading screw, the output end of which is oriented to the geometric center of the trailer container, is arranged in the upper part of the combine harvester. The upper end of the grain conveyor is adjacent to the initial end of the reloading screw. The trailer container is equipped with a system of unloading screws, and paired support wheels are mounted on its rear axle. Extensions installed at an angle to the horizontal are installed in the upper part of the sidewalls of the trailer truck.

EFFECT: reducing the chassis pressure to the soil surface and reducing the cost for carrying out harvesting works.

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Description

The invention relates to the mechanization of agricultural production, namely to machines for harvesting grain crops.

Known combine harvester containing a frame, chassis, technological working bodies, a cabin with control, internal combustion engine (ICE), hopper and header [Khalansky, V.M. Agricultural machines / V.M. Khalansky, I.V. Gorbachev. - Moscow: KolosS, 2003 .-- 624 p. - analogue].

The disadvantage of this combine is the significant pressure of the chassis on the soil when the hopper is full and the presence of its own power plant, which also leads to a certain increase in the pressure of the chassis on the soil, and contributes to an increase in the cost of the harvesting work. At the same time, the combine is used only during harvesting periods, and the rest of the time is idle, i.e. ineffectively applied throughout the year.

A known system of mobile means for cleaning crops, including mobile means consisting of a running chassis, frames with technological working bodies for cleaning the corresponding crops, driving chassis chassis and technological working bodies, a cabin with drive controls and a power plant [RU 2369077 C1 A01D 41 / 00, A01D 43/00 - analogue].

The disadvantage of this system is the significant pressure on the soil of a mobile device used when harvesting cereals, legumes and other crops, when the hopper is full.

Closest to the proposed invention is a combine harvester comprising a combine with a header, a threshing device, a straw separator, an inclined discharge air duct, a conveying device for feeding grain heaps from the threshing device into the air duct, and a tank for harvesting crop attached to the combine [SU 1327826 A01D 4101 / 00 - prototype].

The disadvantage of this grain-harvesting unit is the presence of its propulsion system on the mobile vehicle, which leads to a certain increase in the pressure of the undercarriage on the soil and contributes to a higher cost of the cost of harvesting. The system is used only during harvesting periods, and the rest of the time is idle, i.e. ineffectively applied throughout the year. In addition, a significant portion of the crop harvested in the trailer tank needs further labor-intensive post-harvest processing.

The aim of the proposed invention is to optimize the layout of the harvesting unit, which allows to reduce the pressure of the undercarriage on the surface of the soil, reduce the cost of harvesting, to ensure the possibility of using individual elements of the harvesting unit in production during the off-harvest period.

This goal is achieved due to the fact that in the combine harvester containing a header with a header, a control cabin, chassis, technological working bodies, drives of the running chassis and technological working bodies, as well as a power plant and a trailed tank for harvesting crop, threaded power plant fastenings attached to the frame and the rear wall of the trailed tank for collecting crop mass, and screw jacks are located at the bottom of the power plant. At the same time, a reloading auger is located in the upper part of the combine, the output end of which is oriented to the geometric center of the tank for harvesting crop mass, and the upper part of the grain conveyor is adjacent to its opposite end. In addition, the capacity for harvesting crop is equipped with a system of unloading augers, paired support wheels are installed on its rear axle, and extensions installed at an angle to the horizontal are placed in the upper part of the side boards.

The invention is illustrated by illustrations.

In FIG. 1 shows a diagram of a proposed combine harvester; in FIG. 2, 3 and 4 - section AA in FIG. 1, options for various configuration of the power plant; in FIG. 5 is a diagram of a harvesting unit with an additional pumping station; FIG. 6 is a diagram of the use of a power plant in a stationary version.

The proposed combine harvester includes a combine 1 with a header 2, a trailed tank 3 for harvesting crop and a power plant 4. The combine 1 contains a running chassis 5 mounted on the frame, a control cabin 6 and technological working bodies, which include a threshing device 7 with a chipper 8 , straw separator 9, small heap separator 10, grain auger 11, spike auger and conveyor 12, moulder 13 and straw chopper-spreader (IRS) 14. In this case, the chassis 5 and the technological working bodies of the combine 1 are equipped with drives (not shown in the diagram), for which, for example, electric motors or hydraulic motors can be used. The drive of the bumper beater 8 is unregulated, and the drives of the chassis 5 and the drum of the threshing device 7 are adjustable. In their design, DC motors, multi-speed asynchronous motors [Vanurin, V.N. Multi-speed asynchronous electric motors for stationary machinery drive [Text] / Vanurin V.N. // Mechanization and electrification of agriculture. - 2000. - No. 5. - S. 19-22] or adjustable hydraulic motors, as used in the GST-112. The remaining technological working bodies are presented in the same way as in the design of serial motor combine harvesters [Self-propelled combine harvester RSM-142 “Acros”. Instructions for use and maintenance. Version 3 / LLC Combine Plant Rost-Selmash. - Rostov-on-Don, 2007. - 302 p.].

A hook-on device 15 is attached to the combine 1 with a hook-on tank 3 for collecting crop mass, supported by wheels 16. The hook-on tank 3 is equipped with a system of unloading augers 17 (lower, vertical and rotary). The support wheels 16 of the trailed tank 3 on the rear axle are paired, and in the upper part of its side sides, extensions 18 are installed, installed at an angle to the horizontal. In the upper part of the combine 1 there is a reloading auger 19, the output end of which is oriented to the geometric center of the trailed tank 3 for harvesting, and the upper part of the grain conveyor 20 is adjacent to its opposite end. Threaded to the rear side and the frame of the trailed tank 3 the power unit 4 is attached by fastenings 21. In this case, various versions of the power unit 4 are possible: if multi-speed high-frequency asynchronous electric motors are used as adjustable drives ektrodvigateli, the main elements of the power plant 4 are the ICE 22 and the generator 23, the high frequency (about 400 Hz) associated with drive power cables; if DC motors are used as adjustable drives, then the main elements of the power plant are ICE 22, a high-frequency electric generator 23 and a current transducer 24 connected to the drives with power cables; if hydromotors are used as drives of the chassis 5 and technological working bodies, the main elements of the power plant are ICE 22 and pump station 25, which is connected to the hydraulic track drives. In the lower part of the power plant 4 there are screw jacks 26. When using electric motors, for example, direct current or high-speed high-frequency asynchronous motors, as the drives of the chassis 5 and technological working bodies, the pump station 27 is additionally installed on the combine for driving the hydraulic system units of the combine 1, driven by unregulated electric motor 28.

Combine harvester operates as follows.

From ICE 22, a high-frequency electric generator 23 or a pumping station 25 is driven. In the case of using a high-frequency electric generator 23, it generates an electric current, which through a power cable is supplied to adjustable and unregulated drives (electric motors) of the chassis 5 of the combine 1 and its technological working equipment. Moreover, if multi-speed asynchronous electric drives are used as adjustable drives, then alternating current generated by the generator is supplied to them; if the DC motors are current, the current passes through the current converter 24. The drive of the hydraulic system of the combine 1 is driven from the pump station 27 mounted on the combine 1 and driven by an unregulated electric motor 28. If the pump station 25 is used in the power plant design, then the oil enters the hydraulic actuators of the working process equipment and the chassis 5 of the combine 1, as well as in the nodes of its hydraulic system.

When the internal combustion engine 22 is running and the running gear of the chassis 5 of the combine 1 is switched on, the combine harvester moves across the field. At the same time, the grain mass is mowed by the header 2 and fed to the threshing device 7, after which the coarse heap falls on the straw separator 9, where grain with small impurities is extracted from it, the straw enters the IRS 14 and, after grinding, is scattered on the field surface. At the fine heap separator 10, the grain is cleaned and, by means of the grain screw 11 and the grain conveyor 20, fed to the transfer screw 19. At the same time, the milling machine 13 re-threshes large spikelets. At the same time, the presence of adjustable drives (DC motors, multi-speed asynchronous motors or hydraulic motors of the GST-112 type) allows you to adjust the speed of the combine 1 and the rotational speed of the drum of the threshing device 7. The speed of the reel header 2 and the rotor fan of the small heap separator 10 is same as the serial motor combines. The drive of unregulated nodes is carried out through a bumper beater 8, which performs the function of a counter-drive shaft.

The reloading auger 19 feeds the refined grain to a trailed container 3 for collecting crop mass. Moreover, the relative location of the reloading screw 19 and the trailed tank 3, as well as the presence of extensions 18 allow unloading of grain into the hopper even during turns (for example, when the combine harvester moves around the field around the field). After filling the trailer tank 3, the grain by the system of unloading augers 17 is reloaded into the vehicle body. The presence of fasteners 21 and screw jacks 26 allows you to disconnect the power plant 4 from the trailed tank 3 for harvesting during the extra harvest period, while the trailed tank 3 can be used as a tractor trolley for transporting bulk materials, and the power plant 4 to provide electricity or hydraulic drive stationary objects. When equipped with a harvesting unit, the paired support wheels 16 of the trailed tank 3 for harvesting crop yield partially compensate for the weight of the power plant 4, reducing the specific pressure on the soil.

In comparison with the known technical means, the proposed invention provides a combination of the following advantages:

- reduces the sealing effect of the combine on the soil;

- the cost of the harvester is reduced;

- it becomes possible to ensure the use of individual elements of the harvesting unit in production during the off-harvest period;

- it becomes possible to significantly increase the volume of the trailed tank for the accumulation of crop mass, which will increase the working time of the combine between unloadings and, accordingly, increase the utilization rate of the shift time.

Claims (1)

A combine harvester comprising a combine with a header, a control cabin, a chassis, technological working bodies, drives of a running chassis and technological working bodies, as well as a power unit and a trailed container for harvesting crop, characterized in that the power unit is threadedly attached to the frame and the rear wall of the trailed container for harvesting crop, and screw jacks are located in the lower part of the power plant, while a loading auger is located in the upper part of the combine, the end of which is oriented to the geometric center of the tank for harvesting crop, and the upper part of the grain conveyor is adjacent to its opposite end; in addition, the tank for harvesting crop is equipped with a system of unloading augers, paired support wheels are installed on its rear axle, and in the upper part of the side On-board extensions are placed at an angle to the horizontal.

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