RU1782394C - Pneumatic seeding apparatus - Google Patents

Abstract

The invention relates to agricultural machinery, in particular to single-grain pneumatic sowing machines, and can be used in precision sowing plants for row crops. The aim of the invention is to improve the quality of single-grain sowing of seeds and the productivity of the apparatus. For this, in a pneumatic sowing device, including a seed 1 and vacuum 2 chambers, a sowing disk installed between them on a horizontal shaft 3, consisting of a base 4 with suction holes 11, an overlay 5 having a bevel 13 and through cuts 12 along the periphery with the possibility of the frontal intersection of their contours with the contours of the corresponding suction holes, and gaskets 6 to form a suction gap 7, the longitudinal axial lines of the suction holes are located to the axis of the apparatus shaft under the directional top second vacuum chamber toward an acute angle. .2 sludge (Л С vj 00 GO SA w J y Fig 1

Description

The invention relates to agricultural machinery, in particular to single-grain pneumatic sowing machines, and can be used in precision sowing plants for row crops.

A pneumatic sowing device is known, including a seed and vacuum chambers, a combined metering disk located between them, consisting of two discs separated by a spacer to form a suction gap, one of which adjoins the seed chamber and has a continuous bevel on its side, and on the suction side slots - chamfers evenly distributed around its periphery, and the other adjoins the vacuum chamber and has openings evenly spaced around its circumference for supplying vacuum to the seed chamber, voroKhiyil and a plate ejector of seeds, which simultaneously serves as a cleanser of the gap from clogging.

The disadvantage of this apparatus is the lack of active seed capture by chamfers that are continuously located along the slit, since the role of the latter is limited by the need for uniform orientation of the sucked seeds around the slit circumference to better adhere to the sowing disk and to each other. This leads to the formation of gaps, reducing the quality of single-grain sowing of seeds and high-speed operation

Also known is a pneumatic sowing device containing a seed and vacuum chambers located between them on a horizontal shaft sowing disk, consisting of two disks separated by a gasket to form a suction gap, one of which adjacent to the vacuum chamber has holes uniformly spaced around the circumference, and another, adjacent to the seed chamber - through holes corresponding to the holes along its periphery and a continuous chamfer made on the thickness of the lining and the depth of the cuts, and installed in the slot lastinchaty scraper.

The disadvantage of this apparatus is that the suction openings are completely shielded by a disk containing through cuts, and the seed is captured using a vacuum created in the suction gap, most of which is concentrated around the periphery of the gap between the cuts, which leads to a weakening of the suction force in cavity x through cutouts. All this prevents the active capture of seeds and leads

to the formation of passes and limiting the speed of the device.

The closest in technical essence to the invention is a pneumatic metering device, including a seed and vacuum chambers, a metering disk mounted between them on a horizontal shaft, consisting of a base adjacent to the vacuum chamber and having suction holes evenly spaced around the circumference, lining adjacent to the seed chamber and having on its side a continuous bevel and through cuts along the periphery with the possibility of

5 of the frontal intersection of their contours with the contours of the corresponding suction openings, and gaskets for forming between the pad and the base of the suction gap, the seed ejector, agitator and plate ejector.

A disadvantage of the known pneumatic metering device is its small distribution area.

5 of the vacuum force field in the cavities of the through cut-outs as a result of remote screening by a lining of a significant area of the suction holes and the location of the longitudinal center lines of the latter, where the largest amount of suction force is concentrated in the suction gap cavity. All this leads to the formation of seed gaps at higher speeds of the apparatus, which reduces its productivity and the quality of single-grain sowing of seeds.

The purpose of the invention is to improve the quality of single-grain sowing of seeds and productivity of the apparatus,

0 In order to achieve the goal in the proposed pneumatic metering device, the longitudinal axes of the suction holes are located to the axis of the apparatus shaft under the directional apex in

5 side of the vacuum chamber an acute angle. As a result of this arrangement of the suction openings, their longitudinal axial lines pass through the internal cavity of the through-cuts, increasing the area of distribution of the force vacuum field and the value of the suction force, trapping seeds from the surface of the continuous bevel of the disk, thereby activating the process of seed trapping and increasing speed apparatus.

In FIG. 1 shows the proposed ap. parat, transverse vertical section; in FIG. 2 - section aa in FIG. 1.

The pneumatic metering device includes a seed 1 and 2 vacuum chambers, between which a metering disk is installed on the shaft 3, consisting of a base 4, a pad 5 and a spacer 6 separating them to form a suction gap 7, a tedder 8, an extra seed spreader 9 and a plate an ejector 10 mounted in a slit 7 along the rotation of the disk behind the discharge edge of the vacuum chamber. The base of the sowing disk is adjacent to the vacuum chamber and is evenly spaced along. circles, concentric to the axis of rotation of the disk, suction holes 11, the longitudinal axis of which are located at an acute angle to the axis of the apparatus shaft at a pointed apex towards the vacuum chamber. The overlay adjacent to the seed chamber has through cuts 12 along the periphery, the shape and dimensions of which most closely correspond to the shape and size of the seeds, and a continuous bevel 13. The overlay, gasket, and base of the seed disk are rigidly interconnected so that the projection of the contour each cutout on the end plane of the base from the side of the suction slit intersects with the contour of the corresponding suction hole. Thus, the seed cells, limited by the internal cavity of the through cuts, the sections of the suction gap and the end plane of the base, are pneumomechanical, and their suction devices are open-loop ellipsoid-slot openings.

Pneumatic metering device operates as follows.

During the rotation of the sowing disk, the seeds located in the seed chamber 1 and carried away by the agitator 8, under the influence of the vacuum transmitted from the vacuum chamber 2 through the suction holes

11, located around the circumference of the base 4, and a suction slot 7 formed by a gasket 6 between the base and the cover 5, leave the surface of the continuous bevel 13 and fill the through cutouts

12. When exiting the seed chamber, excess seeds sucked to the gap along the periphery of the lining between the cuts are removed

by the ejector 9, and the seeds located in the cells are transported to the discharge zone of the latter, where, as a result of the screening of the suction holes and 5 by the action of the ejector 10, they are sent to the opener (not shown) of the sowing field and sealed in the furrow. Simultaneously with unloading the cells with the ejector, their suction devices are cleaned.

The positive effect of the invention,

consisting in reducing the number of seed skips while increasing the speed mode of the apparatus and its productivity, is achieved

5 by increasing in the internal cavity of the through-cuts the region of propagation of the force vacuum field and the value of the suction force as a result of the longitudinal axial lines of the suction openings, where the greatest potential for air velocity is concentrated, through the cavity of the through-cuts. Using the proposed pneumatic metering device will increase

Claims (1)

5 operational performance of the sowing machines, will provide higher quality single-grain sowing of seeds and their uniform distribution on the field. 0 Pneumatic metering unit containing seed and vacuum chambers, metering disk located between them on a horizontal shaft, consisting of two discs separated by a gasket 5 to form a suction gap, one of which adjacent to the vacuum chamber has suction holes evenly spaced around the circumference, and the other adjacent to the seed chamber has through cuts corresponding to the holes through its periphery, an ejector of extra seeds, a tedder and a plate ejector, characterized in that, in order to improve the quality of single-grain sowing of seeds and productivity of the apparatus, the longitudinal axes of the suction holes are located to the axis of the apparatus shaft under the directed vertex towards the vacuum chamber sharp 0 angle. YU 12 FIG. 2.