SU865166A1 - Feed - Google Patents

Description

The invention relates to agricultural machinery, in particular to sowing machines for precision sowing of seeds of cereal crops.

Sowing devices are known, including ^{5 a} casing with a vertical mesh sowing disk located inside it, an impeller equipped with a drive mechanism and installed in the cavity between the casing and the sowing disk, and a wedge seed ejector p].

A disadvantage of the known apparatus is that the cells of the vertical sowing disk are poorly filled with seeds of cereal crops. The ingress of seeds into the cells of the sowing disk of this sowing apparatus lies within 70-76Z, and this does not provide uniform exact sowing of seeds of cereal crops. Also, when this meter is operating, seed damage is possible.

The closest in technical essence to the proposed one is a sowing apparatus comprising a housing with a sowing disc mounted on a drive shaft with a V-groove, a seed reflector and a seed ejector G ² ] ·

The advantage of this device is that the seeds that fall into the V-shaped groove of the sowing disk are oriented along the longitudinal axis in the direction of movement of the sowing disk, and this contributes to a better filling of the cells of the sowing disk with seeds of cereal crops that have an ellipsoidal shape.

The disadvantage of this apparatus is that during the * operation, it is possible to jam seeds in the lower part of the V-shaped groove, since in this part of the sowing disk the movement of seeds relative to the cells up to the reflector’s area is almost excluded. This leads to the fact that the bulk of the seed enters the cells under the action of the reflector, which is highly undesirable, as this increases the likelihood of damage to the seeds. Due to this feature of this sowing device, it provides accurate sowing only at low speeds, which can lead to insufficient use of modern energy-saturated tractors. ,

The purpose of the invention is to increase the accuracy of seeding at high speeds.

This goal is achieved by the fact that the sowing disk is made in the form of two parts forming a V-shaped groove, one of which is fixed to the drive shaft rigidly, and the other is free and equipped with an independent drive.

In FIG. 1 shows a metering apparatus, a general view of £ in FIG. 2 is a section A-A> in FIG. 1; in FIG. 3 - plot of the seed disk (cells on the cylindrical part are not shown).

The sowing apparatus consists of a housing 1, in which drive shafts 2 and 3 are pivotally mounted. A sprockets 4 and 5 and one of the parts 6 of the sowing disk with cells 7 on the annular plate 8 are rigidly fixed to the shaft 2, and the width of the plow No. 1 of the sowing disk is less than longer seed lengths. A gear 9 is mounted on the shaft 2 by means of a bearing, on which the second part 10 of the sowing disk is rigidly fixed. On the shaft 3, an asterisk 11, a reflector 12 and gear 13 are rigidly mounted. A gear 15 is pivotally mounted on the lead 14 mounted on the housing. the apparatus is fixed to the ancestor of the storage plate 16 and of the tapping. body 17 о In the upper part of the metering unit, the hopper 18 and the pinch sprocket 19 are fixed.

The metering device operates as follows.

Seeds are poured into hopper 18. The torque from the seeder drive wheels through the sprocket 4 is transmitted to the shaft 2. As a result, part 6 of the sowing disk rotates counterclockwise. In turn, the torque from the shaft 2 through the sprockets 5 and 11 is transmitted via a chain drive to the shaft 3, which drives the reflector 12 and the gear 13. From the sixth gear 13, the torque through the gear 15 is transmitted to the gear 9 ^ and the gear ratio between the gears 13,15 and 9 are selected such that to the part 10 of the disk, rigidly connected to the gear 9, received a peripheral speed so that the lowest speed is lower than the peripheral speed of part 6 of the sowing disk. When the seed disc rotates, seeds fall. into its V-shaped groove. Due to the fact that the rotation speeds of both parts of the disk are accelerated, and the distance between their ends is less than the length of the seeds, in the lower part of the V-shaped groove there is an active orientation of the seeds of cereal crops, which are ellipsoidal, with a longitudinal axis in the direction of movement of the sowing disk . This contributes to the qualitative filling of oblong cells throughout the entire portion of the sowing disk located in the hopper 18. NbLav into the “cells, the seeds move together with the sowing disk to the reflector 12, which removes excess seeds from the sowing disk. Having passed the reflector 12. the seeds together with the sowing drive move to its bottom point. The safety plate 6 prevents premature loss of seeds from the cells. Having reached the lower point of the sowing disk, the seeds are separated from it by centrifugal forces and fall _about into the soil. Those seeds that are stuck in the cells are pushed out of them with the ejector

17.

The norm is changing the birth wheel of the seeder and sprocket 4 of the sowing apparatus. The seeding rate can also be adjusted by setting the annular plate 8 with a different number of cells.

seeding is regulated from the gear ratio between

Using the proposed sowing apparatus will allow you to precisely sow the seeds of grain’s and spiky crops, which have an ellipsoidal shape, with a row spacing of 8 cm. This will provide optimal conditions for the development of cereal crops.

Claims (1)

The invention was attributed to agricultural engineering, in particular, to sowing devices for the exact sowing of cereals. Sowing devices are known, including a housing with a vertical cellular sowing disk located inside it, an impeller equipped with a drive mechanism and installed in the cavity between the housing and the sowing disk, and a wedge seed ejector. The disadvantage of the known apparatus is that the cells of the vertical sowing disc are poorly filled with seeds of cereal crops. The seeds fall into the cells of the sowing disc of this sowing apparatus lies in the range of 70-76%, and this does not ensure uniform, accurate sowing of grain seeds spike crops. So, during the operation of this sowing machine, the seeds may be damaged. The closest in technical essence to the present invention is a sowing apparatus, comprising a housing with a sowing disc with a V-shaped groove mounted on the drive shaft, a seed reflector and a seed ejector f2. The advantage of this device is that the seeds that fall into the V-shaped groove of the sowing disk are oriented along the longitudinal axis in the direction of movement of the sowing disk, and this contributes to a better filling of the cells of the sowing disk with ellipsoidal cereal seeds. The disadvantage of this device is that in the course of work, the seeds are jammed in the lower part of the V-shaped groove, since in this part of the sowing disk the movement of seeds relative to the cells up to the reflector's effect is almost impossible. This implies that the bulk of the seeds gets into the cells under the action of the reflector, which is highly undesirable, since this increases the likelihood of damage to the seeds. Owing to this feature of this sowing apparatus, it provides accurate sowing at ori ally insignificant speeds, which may lead to insufficient use of modern energy-saturated tractors. The purpose of the invention is to improve the accuracy of seeding at higher speeds. This goal is achieved by the fact that the disk is made in the form of two parts forming a V-shaped groove, one of which is rigidly fixed to the drive shaft and the other freely and equipped with an independent drive. In FIG. 1. depicts a sowing unit, an oblique view of FIG. 2 - section AA on 4ig. 1 per g. 3 - section of the sowing disc {the cells on the cylindrical part are not shown). The sowing machine consists of a housing 1 in which drive shafts 2 and 3 are hinged. On the shaft 2, sprockets 4 and 5 and one of the parts 6 of the sowing disk with cells 7 on the annular plate 8 are rigidly fixed, and the width S1 of the sowing disk is less than the length sem n A gear 9 is mounted on the shaft 2 by means of a bearing, on which the second part 10 of the sowing disk is rigidly fixed. On the shaft 3 there is a fixed sprocket 11, a reflector 12 and a gear 13. A gear 15 is pivotally mounted on a leash 14 mounted on the housing. apparatus fixed predog storage plate 16 and tilting. Body 17 sec. In the upper part of the sowing apparatus, a hopper 18 and a clamping sprocket 19 are fastened. The sowing apparatus operates as follows. Seeds are poured into hopper 1B. The torque from the traveling wheels of the seed wheel through the sprocket 4 is transmitted to the shaft 2. As a result, part 6 of the sowing disc turns counter clockwise. In turn, the torque and 1I across the shaft 2 through sprockets 5 are transmitted by means of a chain transmission to the shaft 3, which drives the reflector 12 and gear 13. From the gear 9, the torque is transmitted through the tester to the nude 15 on the gear 9. and the gear ratio between gears 13,15 and 9 is chosen as such. so that the disk part 10, which is rigidly connected with gear 9, receives a circumferential speed less than the circumferential speed of the part 6 of the disk. When rotating the seeding disk, the seeds fall. in its V-shaped groove. Due to the fact that the rotational speeds of both parts of the disk are {9 1e, and the distance between their ends is less than the length of the seeds, in the lower part of the V-shaped groove, the orientation of the seeds of cereal crops, which have an ellipsoid shape, in the direction of sowing disc movement. This contributes to the quality filling of the elongated cells throughout the entire portion of the sowing disc located in the hopper 18. After being fed into the J cells, the seeds move together with the sowing disc to the reflectors) 12, which removes the ligating seeds from the sowing disc. Pass the reflector 12, the seeds together with the sowing disc move to its lower point. The safety plate 6 prevents premature loss of seeds from the cells. After reaching the lowest point of the sowing disc, the seeds are separated from it by centrifugal forces and fall into the soil. Those seeds that are stuck in the cells are pushed out of them with the help of the ejector 17. The seeding rate of the seeds is regulated by changing the gear ratio between the soda wheel and the sprocket 4 of the seeding unit. The seeding rate can also be adjusted by installing ring plates 8 with different numbers of cells. Using the proposed sowing unit will allow you to precisely sow the seeds of cereal crops, which have an ellipsoidal shape, with an inter-spacing of 8 cm. This will ensure optimal conditions for the development of cereal crops. The invention The sowing apparatus, including a housing with a V-groove seeding disc mounted on the drive shaft, a reflector on the seed pusher, is also distinguished by the fact that, in order to improve the accuracy of sowing seeds,