RU1806512C - Pneumatic seeding unit - Google Patents

Abstract

The invention relates to agricultural machinery and can be used in villages for sowing row crops. The purpose of the invention is to increase the accuracy of sowing seeds. The apparatus comprises a seed hopper 1, a housing 2. a seed chamber 3, a cover with a vacuum chamber, a seed meter, a disk 6 rotating on the shaft 7, an impeller 8 with blades 9. The lower part of the seed chamber 3 is made in the form of a leaf spring 10, fixed on the hinge 11. On the leaf spring 10 a seed ejector 12 is fixed, containing a curved section d made in a parabolic curve. The machine can sow seeds in two modes of operation: precision sowing using vacuum and seed sowing. 2 C.p. fs, 3 ill.

Description

The invention relates to agricultural machinery, in particular to sowing machines-sowers, and can be used for accurate and row sowing of row crops.

The aim of the invention is to increase the accuracy of sowing seeds.

Figure 1 shows a General view of a pneumo-mechanical metering device, working using vacuum; on .ig.2 - the same, working in a mechanical seeding mode; in Fig.Z - section aa in Fig.2,.,. . . -. . . :;

The metering device comprises a seed hopper 1, a housing 2, a seed chamber 3, a cover 4 with a vacuum chamber 5, a metering disk 6 rotating on a shaft 7, an impeller 8 with blades 9. made in the form of a truncated cone, the smaller base of which is turned into side of the seed chamber 3.

The lower part of the seed chamber 3 is made in the form of a leaf spring 10 mounted on a hinge 11, and having an inner surface a, facing the axis of rotation of the seed disk 6, and on the other a lock b (such as a latch) for fixing the leaf spring -f 0 on case 2.

On the outer surface of the leaf spring 10, a seed ejector 12 is fixed, containing a straight section c located and tangent to the curved wall of chamber 3 and a curved section d made according to a parabolic curve that is adequate to the flight path of the seeds after {sowing the sowing disk 6 , and the curved part of it is facing the axis of rotation of the sowing disk b. Such a seed ejector 12 provides for forced seed descent at the same point for precise sowing, since the curved section d is located in m naturally seed gathering from disk 6.

The lower part of the seed chamber 3 is provided with an aperture 13 intended for ejecting seeds in a mechanical (seed) seeding mode.

A pneumatic mechanical metering device can carry out both precision and precise vacuum metering;

The sowing apparatus operates as follows; ., ...

Before the exact sowing, the opening 13 is blocked by a leaf spring 10. When working in the vacuum chamber 5, a vacuum is created, the seeds coming from the hopper 1 into the seed chamber 3, when the sowing disk b is rotated, are sucked to its holes and transported to the place where the seeds were shed. Here

the range of the vacuum chamber 5 ends and the seeds are separated by gravity from the openings of the disc b and enter the coulter.

In case of jamming of the seeds in the openings of the sowing disk 6, they are forcibly removed from the disk 6 by the curved part d of the seed ejector 12, made in a parabola. In order to prevent damage to the seeds removed by the ejector 12, the latter is spring-loaded (since it is fixed to the leaf spring 10).

The impeller 8 rotates, with the 9 blades stirring seeds.

If necessary, increase the sowing rate (over 150 thousand pieces of seeds per 1 ha), for example, for sowing on a silo, the sowing apparatus is converted to sowing in a regular way. The rarefaction source is turned off (not shown in the drawings), the opening 13 is opened by folding the leaf spring 10.

Seeds from the bunker T are sent to the seminal chamber 3, from where the blades 9 of the rotating impeller 8 are moved to the lower part of the seed chamber 3, where under the weight of their own weight they pass through the opening 13 into the coulter.

The leaf spring 10 and the seed flapper 12 hang freely by gravity, while the inner surface a of the leaf spring 10 serves as a guide for the descent of seeds, which increases the accuracy of sowing.

The installation of the impeller 8 on the shaft 7 with the smaller base of the cone to the seed chamber 3 allows its entire width to be used for sowing. The seeding rate is regulated by the number of revolutions of the impeller 8.

The implementation of a movable curved damper in the form of a leaf spring, one end pivotally connected to the bottom of the seed chamber, and the other by means of a lock and mounted on the outer surface of the damper at the point of its hinge connection with the bottom of the seed chamber of the seed ejector, made in in the form of a curved plate, convex side facing the axis of rotation of the disk, the longitudinal section of which has the shape of a parabolic curve, allows you to:

increase the accuracy of seeding. In case of precise sowing, this is ensured by the forced descent of seeds at the same point and the execution of the seed ejector in a parabolic curve that is adequate to the flight path of the seeds after they descend from the sowing disk. When sowing in a row - this is achieved by the fact that the inner surface of the leaf spring is a guide for seed flow;

to prevent damage to the seeds remaining in the cells of the sowing disc, since the seed ejector is spring-loaded (fixed to a leaf spring).

The implementation of the impeller in the form of a truncated cone, the smaller base of which is facing the seed chamber, allows the entire width of the seed chamber to be used for sowing.

Formulas a shade of shade

Claims (3)

1. A pneumatic metering device comprising a seed hopper mounted on the housing, a seed and vacuum chambers, between which a metering disk with suction holes is located and an impeller adjacent to the COL disk of the seed chamber, while a hole is made in the bottom of the seed chamber for ejecting seeds, covered by a movable curvilinear damper, so that in order to increase the accuracy of sowing seeds, the damper is made in the form of a leaf spring, one end pivotally connected to the bottom of the seeds the chamber, and the other by means of a lock, and has a seed ejector in the form of a curved plate, convex side facing the axis of rotation of the disk and fixed at one point on the outer surface of the shutter at the point of its articulation with the bottom of the seed chamber, 2. The apparatus according to claim 1, with the fact that the longitudinal section of the curved plate has the shape of a parabolic curve. 3. The apparatus according to claim 1, characterized in that the impeller is made in the form of a truncated cone, the smaller base of which is facing the seed chamber. AND 2 figz