RU147550U1 - HARVESTER HEADER FOR HARVESTING AMARANT - Google Patents

Abstract

1. The header of a combine harvester for harvesting amaranth, comprising a housing, lower and upper cutting apparatus, including cutting segments with catching shields and opposing plates, a transverse conveying device, a chopper of stems, an inclined chamber comprising a housing with a conveyor, characterized in that the lower, upper cutting apparatus and stalk chopper are made in the form of vertical drive shafts, on which disks with cutting segments fixed to them are located coaxially, catching shields, positioning radially opposed to the vertical drive shafts, the opposing plates are mounted on the header body, which under the transverse conveying device and the lower part of the inclined camera body are made in the form of air ducts, the upper parts of which are perforated, the air ducts at the junction are equipped with a fan and a valve installed with the possibility of alternately overlapping the air ducts, the housing of the inclined chamber on the side of the transverse conveying device Abgen with a bell. 2. The header of an amaranth combine harvester according to claim 1, characterized in that the upper and lower bars of the frame are made sectional in the number of vertical drive shafts and are connected with the possibility of movement along the longitudinal axes of the upper and lower bars of the frame and fixation. 3. The header of a combine harvester for harvesting amaranth according to claim 1, characterized in that removable spacer sleeves are installed on the vertical drive shafts between the disks.

Description

The proposed utility model relates to agricultural engineering, in particular to the reapers of combine harvesters for harvesting amaranth plants for seeds and feed.

Known brook reaper for harvesting corn in the phase of wax ripeness, including a rotary cutting apparatus installed under the cob-separating apparatus, and a chopper connected by a screw. (Self-propelled corn harvester KSKU-6. Prince Khalansky V.M., Gorbachev I.V. Agricultural machines. - M.: Kolos, 2004. - P. 404-410).

The disadvantages of the known brook reaper for harvesting corn in the phase of wax ripeness is its low throughput. This drawback is due to the fact that the technological operation of cutting stems carried out by a rotary cutting apparatus is performed separately from the technological operation of grinding the stems with a grinder and before the grinding operation. In the technological process of the known brook header between the technological operations of cutting the stems and their grinding is the technological operation of moving the cut stems from the cutting apparatus to the chopper. Separate execution of operations of cutting the stems and their grinding, as well as the presence of the operation of moving the cut leaf-stem mass from the cutting apparatus to the chopper, reduces the throughput of the known brook header.

Known brook reaper does not provide separation of panicles of amaranth plants from stems and allows significant loss of seeds due to the impact on the panicles of plants of the working bodies of the brook reaper. Significant loss of seeds is due to the uneven ripening of amaranth seeds in panicles and the relatively easy selection of ripened seeds from panicles. The design of the well-known brook reaper is not suitable for collecting milled seeds from panicles. Therefore, it cannot be used for harvesting amaranth for seeds.

The closest in technical essence and the achieved result to the proposed header of the combine harvester for harvesting amaranth plants, is a device for harvesting amaranth plants, containing the lower and upper cutting apparatus, the lower conveying device for feeding the cut stems to threshing with grinding and the upper transporting device for removing the cut seed panicles and loading them into a vehicle, and the upper cutting apparatus is made in the form of active and passive lifters, an active bodice the ter is equipped with cutting segments, and the passive one is equipped with a counter plate located backward relative to the lower cutting apparatus by 1 / 2-2 / 3 of the length of the lifters. Moreover, each segment of the active lifter has a heel that enters the guiding slide at the moment of cutting, due to which a tight connection of the cutting edge of the segment with the opposing plate of the passive lifter is ensured, and behind each cutting segment of the active lifter there is a catching plate made of elastic material to capture the cut seed panicle and its forced movement to the upper transporting device (Patent for invention RU No. 2127508, IPC ⁶ A01D 45/30, 1999 - prototype).

A disadvantage of the known device for harvesting amaranth, taken as a prototype, are significant losses of amaranth seeds in the harvesting process.

Significant losses of amaranth seeds during the harvesting process are due to the following. Amaranth panicles cut off during cleaning by the upper cutting apparatus are affected by catching guards, then the cut panicles enter the upper transporting device and are moved by it. In the process of interaction of panicles with each other, as well as with the surfaces of the catching shields and the upper transporting device, the seeds are ground out from panicles. These milled seeds wake up in the gaps between the movable and stationary parts of the upper conveying device, and then the lower conveying device, resulting in irreversible losses.

Amaranth stalks cut by the lower cutting apparatus of the known device have a considerable length. Therefore, their movement to the threshing device of the combine and in the working slot of the threshing device during threshing due to their considerable length is difficult and can cause clogging of the working slit of the threshing device with the threshed mass. This reduces the throughput of the threshing device of the combine and increases the complexity of servicing the combine, since the combiner manually performs the removal of the threshed mass from the working slit of the threshing device when it is driven.

The technical result of the utility model is to reduce the loss of amaranth seeds during harvesting in the field.

The technical result is achieved in that in the header of a combine harvester for harvesting amaranth, comprising a housing, lower and upper cutting apparatus, including cutting segments with catching shields and counter plates, a transverse conveying device, a shredder of stems, an inclined chamber, including a housing with a conveyor, according to a useful models lower, upper cutting apparatus and chopper stalks are made in the form of vertical drive shafts, on which disks are mounted coaxially with attached to them by sewing segments, catching shields located radially to the vertical drive shafts, the opposing plates are mounted on the header body, which under the transverse conveying device and the lower part of the inclined camera body are made in the form of air ducts, the upper parts of which are perforated, the air ducts at the junction are equipped with a fan and a valve installed with the possibility of alternately overlapping the air ducts, the housing of the inclined chamber on the side s transverse conveying device is provided with a socket.

In a preferred embodiment, the headers of the combine harvester for harvesting amaranth of the upper and lower rails of the frame are made sectional, according to the number of vertical drive shafts, and are connected with the possibility of movement along the longitudinal axes of the upper and lower rails of the frame and fixation.

In another preferred embodiment, the header of a combine harvester for harvesting amaranth, removable spacer sleeves are mounted between the discs on the vertical drive shafts.

In another preferred embodiment, the header of a combine harvester for harvesting amaranth, the fan at the junction with the air ducts is provided with a valve.

The essence of the utility model is illustrated by drawings. In FIG. 1 shows a schematic view of a device for harvesting amaranth, side view; in FIG. 2 - also, a top view; in FIG. 3 shows schematically a device for harvesting amaranth, in view A of FIG. one; in FIG. 4 - also, in view of B in FIG. 3; in FIG. 5 schematically shows the lower bars of the frame; in FIG. 6 schematically shows the lower bars of the frame; in FIG. 7 scheme aerogolobov and conveyor reapers for harvesting amaranth.

The header of a combine harvester for harvesting amaranth contains a housing 1 with dividers 2, supported by shoes 3. Between dividers 2 are vertical drive shafts 4, on which disks 5 are coaxially mounted, with cutting segments mounted on them 6. On cutting segments 6, radially to vertical catch shields are located on the drive shafts 4. The cutting segments 6 interact with the opposing plates 8 mounted on the vertical posts 9 of the housing 1. The vertical posts 9 are connected to the transverse upper beam 10 and river lower beam And the housing 1. The upper beam 10 and the lower beam 11 are made in the form of sections 12. Moreover, the number of sections 12 is equal to the number of vertical drive shafts 4. Sections 12 are connected with the possibility of movement along the longitudinal axes of the upper beam 10 and the lower beam 11 (Fig. 5, Fig. 6). Sections 12 are fixed by a stopper 13 on the upper beam 10 and the lower beam 11, providing adjustment of the arrangement of the sections 12 for a given width of the aisles of amaranth plants.

On the vertical drive shafts 4 between the disks 5, removable spacer sleeves 14 are installed. The length of the chopping stems is adjusted by installing a set of removable spacer sleeves 14 that are equal in height to each other, corresponding to the specified length of the chopping stems, on the vertical drive shafts 4 between the disks 5.

Behind the vertical drive shafts 4 there is a transverse conveying device 15 and an inclined chamber 16, including a housing 17 with a conveyor 18. The housing 17 of the inclined chamber 16 is provided with a bell 19 on the side of the transverse conveying device 15.

The housing 1 under the transverse conveying device 15 and the housing 17 of the inclined chamber 16 under the conveyor 18 are made in the form of an air channel 20 and air channel 21. The upper parts of the air channel 20 and air channel 21 are perforated with through holes 22. The holes 22 have shutters 23. The air ducts 20 and 21 at the junction are equipped with a fan 24 and a valve 25. The valve 25 is installed with the possibility of alternately overlapping the air ducts 20 and 21 (Fig. 7).

A threshing device 26 and a straw walker 27 are located behind the conveyor 18 of the inclined chamber 16. Under the threshing device 26, a transport board 28 and a grain cleaning device 29 are installed. A straw collector 30 is located behind the straw walker 27, and the grain cleaning device 29 is connected to the hopper 32 by the conveyor 31. By the transverse transport device 15 beveled leafy mass enters the vehicle 33.

The header of the combine harvester for harvesting amaranth plants works as follows. Prior to the arrival of the harvester on the field for harvesting amaranth, the installation of sections 12 is adjusted taking into account the row spacing (45 cm, 60 cm, 70 cm) of amaranth plants on the harvested field. The adjustment ensures that the rows of plants get into the cutting zone by their cutting segments 6 of the disks 5 and the opposing plates 8. The adjustment is carried out by moving the sections 12 along the longitudinal axes of the upper beam 10 and the lower beam 11 and fixing it with a stopper 13.

Pre-install a set of identical height removable spacer sleeves 14 on the vertical drive shafts 4 between the disks 5. The height of the removable spacer sleeves 14 provides the length of the crushed parts of the stems of amaranth. To change the length of the crushed parts of the stalks of amaranth, a set of removable spacer bushings 14 of the same height is changed to a set of removable spacer bushings 14 of an appropriate height, providing the necessary length of the plant parts.

When the harvester moves along the harvested field, amaranth plants are captured by the cutting segments 6 of the disks 5, they are shifted to the opposing plates 8 and the stems are cut along their entire length by segments 6 and the opposing plates 8. At the same time, the amaranth stalk is cut and chopped simultaneously.

The catch plates 7 capture the cut parts of the plant stems and feed them into the bell 19 and to the transverse conveyor 15. The valve 25 directs the air flow from the fan 24 into the air duct 21, while blocking the air flow into the air duct 20. The crushed plant stems through the transverse conveyor 15 enter a nearby vehicle 33. Amaranth seeds released from panicles and waking up from a transverse transport device 15 enter a perforated surface of an air duct of driving the channel 21. Under the action of the air streams coming from the air-conducting channel 21 through the through hole 22 and directed louvers 23, seeds are fed into the vehicle 33. The ground LEAFY weight and threshed seeds are delivered to the vehicle 33 at a hospital for postharvest treatment.

In another embodiment of harvesting amaranth, the transverse transporting device 15 is stationary, and the conveyor 18 is included in the operation. The valve 25 closes the air duct 21 and the air flow from the fan 24 enters the air duct 20. The leaf-stem mass, crushed by the cutting segments 6 of the disks 5 of the vertical drive shafts 4 and the opposing plates 8, is fed to the conveyor 18 and fed to the threshing device 26. Seeds emitted from the crushed leaf-stem mass in the process of moving by the conveyor 18, is separated on the upper part of the air channel 20 and air flows through the openings 22 and adjustable blinds 23, are served on the transport board 28 (Fig. 7). On the transport board 28, the seeds enter the grain cleaning device 29, where they are separated from impurities and fed by a conveyor 31 to the hopper 32.

At the same time, the threshed mass enters the straw walker 20 and the collector 30. The seeds and small impurities threshed by the threshing device 26 enter the grain cleaning device 29. Then, the seeds separated from the impurities 29 in the grain cleaning device by conveyor 31 are fed to the hopper 32.

The application of the utility model will reduce the loss of amaranth seeds in the harvesting process, as well as reduce the complexity of servicing the harvester for harvesting amaranth.

Claims (3)

1. The header of a combine harvester for harvesting amaranth, comprising a housing, lower and upper cutting apparatus, including cutting segments with catching shields and opposing plates, a transverse conveying device, a chopper of stems, an inclined chamber comprising a housing with a conveyor, characterized in that the lower, upper cutting apparatus and stalk chopper are made in the form of vertical drive shafts, on which disks with cutting segments fixed to them are located coaxially, catching shields, positioning radially opposed to the vertical drive shafts, the opposing plates are mounted on the header body, which under the transverse conveying device and the lower part of the inclined camera body are made in the form of air ducts, the upper parts of which are perforated, the air ducts at the junction are equipped with a fan and a valve installed with the possibility of alternately overlapping the air ducts, the housing of the inclined chamber on the side of the transverse conveying device Abzhen bell. 2. The header of the combine harvester for harvesting amaranth according to claim 1, characterized in that the upper and lower rails of the frame are made sectional, according to the number of vertical drive shafts, and are connected with the possibility of movement along the longitudinal axes of the upper and lower rails of the frame and fixation. 3. The header of the combine harvester for harvesting amaranth according to claim 1, characterized in that removable spacer sleeves are installed on the vertical drive shafts between the disks.

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