SU1045834A1 - Pneumatic sowing apparatus - Google Patents

Abstract

A PNEUMATIC SOWING DEVICE containing a hopper, an air injection unit with air nozzles, a cylindrical body having a cavity in the ejection zone with front edges connected to the seven wires, and sowing elements with seed cells made in the form of tapering outward grooves that are coupled with the side planes of the body, characterized in that, in order to increase the accuracy of seeding, the front edge of the discharge chamber in the cylindrical wall of the body is curved along the tangent conjugate to the inner surfaces of the housing and wires seed while seeds wire formed with a longitudinal through-slit in the form of a curved pipe (A, a decreasing flow area in the direction of the outlet end.

Description

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The invention relates to agricultural machinery, in particular to seeding devices of seeding machines. A pneumatic metering device is known, comprising a hopper, an air injection device, a housing with an adjacent seed drum with cells on the inner surface of the rim. In the inner cavity of the drum, in the upper part, under the cells, receiving tubes are installed, connected to the seven wires, and outside of the drum, seed emitters in the form of elastic rollers C 11 are installed. A disadvantage of the known apparatus is the significant effect of the change in the frequency of rotation of the sowing drum on the accuracy single grain metering and seed distribution in the stream. The increase in centrifugal forces contributes to the retention of two or more seeds by the cell, and when they reach the magnitude of the gravitational forces, the seeds do not fall out of the cells in the emission zone at all. In addition, there is a blockage of holes in the cells of particles. Also known are a pneumatic sowing device, containing a bunker, a device for blowing air with air nozzles, a cylindrical body, having in the zone of ejection of seeds of the cavity with leading edges connected to these wires, and sowing elements with cells for seeds, made in the form of skuzhnyh grooves narrowing outwards, which are coupled with the lateral planes of the housing 2. The disadvantage of this apparatus is that, depending on the position and orientation in the cell, the seeds varying in shape and size are detached from the sowing element at different points of the discharge cavity and in different directions. In this wire the seeds move, hitting the walls . As a result, the seeds descend into the furrow from different points of the seed wire at different intervals with significantly different speeds and trajectories, which gives a large scatter of the intervals between the seeds along and across the row. With an increase in the speed of rotation of the sowing disc, the seeds do not have time to completely exit the cells and as a result, they are crushed against the trailing edge of the outflow cavity. The aim of the invention is to improve the accuracy of seeding. The goal is achieved by the fact that, in the apparatus, the front edge of the outflow cavity in the cylindrical wall of the housing is made in a curve that is adjacent to the inner surfaces of the housing and this wire, while this wire is made with a longitudinal slit in the form of a curvilinear pipe with a reduced flow area in the direction of the output end. Figure 1 shows a pneumatic sowing unit, side view, the sowing disc is removed; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 1. t The proposed apparatus contains a stationary bunker (not shown 7, housing 1, to the annular plane 2 of which there is an adjacent, sowing element in the form of a disk 3, having k cells for seeds, made in the form of outwardly tapering through grooves. The end plane 2 contains the discharge cavity 5 wire with which this wire 6 is connected. The front edge 7 of the outflow cavity 5 is made in a curve that is conjugate with respect to the internal cavities of housing 1 and this wire 6, and through it there is a through slot 8. In case 1, a pneumatic channel 9 is made, a single unit with an air injection device (not shown j. The sowing element in the form of a disk 3 is spring-loaded to the plane 2 of the housing 1 by a spring 10 and mounted on the drive shaft 11. The apparatus cavity is connected by a seed channel 12 to the seed box. The sowing unit can be made both single and dual, when two sowing elements in the form of a disk 3, rotated by a common shaft 11, adjoin the housing 1 on opposite sides. The device operates as follows. Seeds from the hopper through seed channel 12 enter the lower part of the cavity of the apparatus. Air is supplied through the pneumatic channel 9 into the same cavity from the source of injection. When the disk 3 rotates the seeds under the action of forces created by the difference in air pressure in the cavity and outside the sowing apparatus, the forces of weight, centrifugal -. forces, fill the cells. Go out

the heap, the cells are blown with air from pneumatic channel 9, where excess seeds are removed. The remaining seeds are transported by cells into the wire 6. When the cell moves along the edge 7 of the outflow cavity 5, the seeds are pressed by the forces created by the air pressure flow through the cell and by centrifugal forces to the edge 7 and smoothly enter the wire regarding the circumference of the seed disc 3 speed, equal

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district; disk speed to the longitudinal slit 8.

When moving in this wire, the seeds are pressed to the gap 8 by air, partially escaping through it, and centrifugal forces depending on the curvature of the wire.

The proposed pneumatic sowing unit significantly improves the quality of seed distribution in the furrow, eliminates crushing of the seeds at any sowing rate.

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Claims (1)

A PNEUMATIC SOWING UNIT containing a hopper, an air injection device with air nozzles, a cylindrical body having in the discharge zone cavities with leading edges connected to the vas deferens, and sowing elements with seed cells made in the form of through grooves tapering outwards, which mated to the lateral planes of the housing, characterized in that, in order to improve the accuracy of seeding, the leading edge of the exhaust approach in the cylindrical wall of the housing is made according to a curve mated tangentially to the inside the surface of the body and the vas deferens, while the vas deferens g is made with a longitudinal through slot in the form of a curved pipe with a decreasing bore in the direction of the output end. 1 1045834 2