SU1230495A1 - Sowing apparatus - Google Patents

Description

15

The invention relates to agricultural machinery, namely, devices for the precise sowing of seeds of industrial crops.

The aim of the invention is to increase the uniformity of dotted seeding of elongated seeds by better filling the slot with seeds and improving the orientation of the seeds before filling them with slots.

FIG. 1 shows the sowing apparatus, open, view, section; in fig. 2 - diagram of the drive unit; in fig. 3–7 are the positions of seeds in a disk occupied by vrash, mania of the disk; in fig. 8 - scheme of filling the spiral channel with grain; in fig. 9 is a section A-A in FIG. one.

The sowing machine includes a housing 1, to which the screws 3 fasten the cover 3. To the latter, screws 2 secure the stationary gear 4 of the gearbox, in the hole of which two bearings 5 are pressed, separated by a spacer sleeve 6. Through the 20 sleeve 6 and the bearings 5 passes the drive roller 7 , on which nut 8 is fixed conical gear 9. In the lower part of the roller 7, the platform 10 of the gearbox and the ingrowing seed wheel 11 with 25 through slots in the form of a logarithmic spiral 12 are fixed, fixed on the roller 7 by means of prismatic tion key 13, the remote hub 14 and the nut 8.

On platform 10 of the reducer, bearings 15 are pressed into the sockets, through which the roller 16 passes, in the lower part of which is mounted, elements in the form of vrashayush, plates 17 with radial fingers 18 (Fig. 9), and satellites 19 in the upper part.

The case 1 is fixed to the bottom with screws 2 fixed to the bottom 20 with a sowing window and an outlet wire 21. 21. On the left and right of the case, supplying sePer are attached to the case on which the sowing machine is mounted, rotation from the support-driving wheel by means of a chain transmission ( the sprockets 25 and 26) is transmitted to the shaft 27, on which the leading conical shchesthern 28 is fixed.

The drive gear 28 (Fig. 1) rotation is transmitted to the bevel gear 9 fixedly mounted on the drive roller 7, with which the gearbox 10 and the sowing disc 11 rotate fixedly fixed on it. Satellites 19 rotate along with the platform 10, rolls around the stationary pinion 4, rollers 16 are brought into rotation, and the wiper elements rigidly attached to them in the form of rotating plates 17.

When the cavity of the housing 1 is filled with grain, the grain and the through spiral channel 12 (Fig. 8) of the sowing disk 11 are filled. When the sowing disk 11 is rotated, the grains located in the spiral slot 12 and lying on the bottom 20 move to the center of the sowing disk 11 and the bottom 20, pushed by the spiral edge of the slot 12. The grain slides along the bottom evenly to the center of the bottom, since the pushing edge of the through slot is made in the form of a logarithmic spiral and occupies successive positions shown in FIG. 3-7.

When the disk is rotated 360 °, the grain located at point K (Fig. 7) moves to point N (the beginning of the spiral slot) and to the sowing hole in the center of the bottom 20, then falls into the discharge wire 21 under its own weight. and further into the soil. Since the grain immediately fills the spiral slot 12 of the sowing disk 11, the sowing takes place simultaneously with the beginning of the rotation of the disk 11. The uniform distribution of the seeds and their orientation is ahead of that filled in the spiral slot 12

The wires 22 connected to the bunker 23, p, bake the wiping elements in the form of rotating plates 17 with the fingers 18 (Fig. 9).

The support-driving wheel 24 (Fig. 2) by means of a chain transmission, including sprockets 25 and 26, is connected to the shaft 27, on which the leading bevel gear 28, which is in engagement with the bevel gear 9, is fixed.

The device works as follows.

The grain from the bunker 23 to the wire 22 fills the space of the housing 1, bounded above by the platform 10, and below by the seed disc 11 and the bottom 20.

Since the grains in the spiral channel are arranged one after the other, and the excess chip is sown, one seed is sown, the frequency of seed loss is controlled by the speed of rotation of the sowing disc 11 using an asterisk 26. The width between the rows is controlled by the relative position of the sowing units.

Thus, the invention provides an effective sowing of elongated seeds by the dotted method, as well as the necessary plant density.

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During the movement of the seedling on which the sowing machine is attached, the rotation from the support-driving wheel by means of a chain transmission (sprockets 25 and 26) is transmitted to the shaft 27, on which the drive conical scaffold 28 is fixed.

The drive gear 28 (Fig. 1) rotates the bevel gear 9, which is rigidly seated on the drive roller 7, with which the gearbox 10 and the sowing disc 11, which is fixedly fixed on it, rotate. The satellites 19 rotate along with the platform 10 and roll around around the fixed jaws 4, the rollers 16 are brought into rotation and the wiper elements rigidly attached thereto in the form of rotating plates 17.

When the cavity of the housing 1 is filled with grain, the grain and the through spiral channel 12 (Fig. 8) of the sowing disk 11 are filled. When the sowing disk 11 is rotated, the grains located in the spiral slot 12 and lying on the bottom 20 move to the center of the sowing disk 11 and the bottom 20, pushed by the spiral edge of the slot 12. The grain slides along the bottom evenly to the center of the bottom, since the pushing edge of the through slot is made in the form of a logarithmic spiral and occupies successive positions shown in FIG. 3-7.

When the disk is rotated 360 °, the grain located at point K (Fig. 7) moves to point N (the beginning of the spiral slot) and to the sowing hole in the center of the bottom 20, then falls into the discharge wire 21 under its own weight. and further into the soil. Since the grain immediately fills the spiral slot 12 of the sowing disk 11, the sowing occurs simultaneously with the beginning of the rotation of the disk 11. The uniform distribution of the seeds and their orientation before the filled in the spiral slot 12

 bake the scrubbing elements in the form of rotating plates 17 with fingers 18 (Fig. 9).

Since the grains in the spiral channel are arranged one after the other, and the excess chip is sown, one seed is sown, the frequency of seed loss is controlled by the speed of rotation of the sowing disc 11 using an asterisk 26. The width between the rows is controlled by the relative position of the sowing units.

Thus, the invention provides an effective sowing of elongated seeds by the dotted method, as well as the necessary plant density.

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Claims (2)

1. SOWING UNIT containing a fixed bottom with a sowing window and a sowing disk rotating through it with through slots in the form of a logarithmic spiral, characterized in that, in order to increase the uniformity of the dotted sowing of elongated seeds by better filling the slots with seeds, the sowing window is made in the form a circular hole located in the center of the bottom, while the beginning of the spiral is communicated with the sowing window, and the spiral is directed along the rotation of the disk, over which the cleaning elements are installed. 2. The apparatus by π. 1, characterized in that, in order to improve the orientation of the seeds before filling them with slots, the cleaning elements are made in the form of rotating plates with radially spaced fingers. fi el