SU1128857A1 - Sowing apparatus - Google Patents

Description

The invention relates to agricultural machinery, namely, to sowing precision seeding apparatus, mainly sugar beet seeds. A known sowing device, which contains a seed bin with a rotating disk located at its lower part, around the circumference of which there are holes for the seeds, is located above the pneumatic device that supplies compressed air through the holes of the rotating disk,. and under the disc, a locking device that covers the holes everywhere, except for the area opposite the blowing device, where seed ejection occurs, and there are at least two rows of holes for the seeds on the disc. A disadvantage of the known device is that the seeds, after being pulled out of the cell, fall to the bottom of the groove along arbitrary trajectories. This, as well as the absence of forced fissile seeds in the groove at the place of their first contact with the soil, does not allow to obtain an accurate seed distribution. groove In addition, the distribution accuracy deteriorates due to the poor filling of the cells at high rotational speeds of the horizontal disc. The closest in technical essence to the present invention is a sowing apparatus, including a seed bunker, a dispenser mounted under it with its drive, rotation and seed-opening cells, a compressed air supply system with an outlet, and a sem wire and allowing to seed seeds with their fixation in the bottom of the groove, as a result of which the quality of the distribution is improved, nor 2j. However, the issue of improving the quality of filling cells at high rates is not resolved, since the used cone-turner is ineffective and somewhat increases the fragmentation of seeds, while not accelerating them in the filling area of the cells, which affects the quality of the distribution of plants. Missing (unfilled) seeds with cells lead to passes in plant rows, and the presence of a puller leads to an increase in seed crushing. The aim of the invention is to improve the quality of sowing of seeds on elevated levels. The goal is achieved by the fact that in the seeding unit, which includes a bunker, for seeds, install a dispenser under it with a drive for its rotation and cells - openings for seeds, a system for supplying compressed air with an outlet, and this wire, the dispenser is designed as installed in a housing with an outlet opening of a cylindrical container with a horizontal bottom, having in the central part a protrusion in the form of a cone, with through holes in the container wall parallel to its axis through holes communicating with the cavity of the container TIFA for seed, the latter being made in the wall of the vessel at its bottom level, are directed radially and have a diameter equal to the diameter of the through holes. In addition, between the base of the housing and the bottom of the dispenser, there is an o-ring made of antifriction material in the zone of seed ejection into the seed wire. Cells - openings for seeds, are located at an angle of 50-65 to the vertical axis of the dispenser .. The cone of the bottom is made with an angle at the apex of 150-155. FIG. Figure 1 shows schematically the proposed sowing unit ;, FIG. 2 - section of the wall of the sowing apparatus at the place of unloading of seeds; on . 3 - dispenser in isometric projection. The sowing machine comprises a seed hopper 1 with a base 2 in which the agitators 3 are mounted, a housing 4 in which the dispenser 5 is placed, in the form of a cylindrical container rotating around a vertical axis 6, on the bottom 7 of which a projection 8 is made; an anti-friction ring 9 with a hole 10 for the passage of semen at the place of discharge: a load and this wire 11. For rotation of the doses; an ator 5 has a drive (not shown). The base of the seed bunker at the place of unloading of the cells has a cavity 12 communicating with the compressed air supply system, in the lower part of which. placed spring-loaded sealing sleeve 13, made of antifriction material. In the wall 14 of the dispenser 5 (Fig. 3) ,. at equal distances from each other, there are through holes 15,

directed along the axis of the cylinder, communicated with the cells — the openings 16 (the diameter of which is equal to the diameter of the through holes) extending into the cavity of the container at the bottom of its bottom, the housing 4 has an opening 17 in the seed exit area 17.

The sowing machine works with;

When rotating around the axis 6 of the dispenser 5 installed in the housing 4, the seeds from the hopper 1, mounted on. the base 2 with the agitators 3, is set in motion, with centrifugal force throwing the seeds to the walls 14 of the dispenser. The cone 8 of the bottom 7 of the dispenser eliminates the formation of the zone of the rest of the dispenser, in which cells are located at the bottom level - from, turn 16. Under the action of centrifugal force, pressure forces from the side of the seed mass and the injectors 3, the seeds penetrate into the cells - holes 16, through which into holes -15 and transported as the disc is rotated to the unloading area. The compressed air coming from the cavity 12 of the base 2 of the seed bin 1, sealing the bath with a sealing sleeve 13, blows the seeds through the hole 10 of the sealing ring 9 that covers the metering holes everywhere except the discharge zone and accelerates the seeds into

This wire G1 up to the speed required to fix them in the groove. Cone 8 eliminates the formation of a resting zone in the center of the dispenser.

This dispenser implementation allows CKopodTb to increase its rotation: not with a simultaneous improvement in cell filling capacity, which leads to an improvement in the distribution of seeds, i.e. improving the quality of sowing seeds

Considering the process of unloading seeds from the holes in the wall of a cylindrical tank with Compressed Air Assistance, we see that the same hole is acting on the seed in hole 15 and on the seed in hole 16 that connects the hole to the cavity of the tank. pressure (Pascal law). Under the action of pressure forces, the seeds move along the lines of action of the resulting pressure forces. Since the vertical movement of the seed begins with some delay (before the cell aligns with the hole of the sealing ring), it is pushed out of the cell-hole 16, this next, following the first, and then the first seed, which is in the cell, is thrown out through this wire into the groove.

The proposed device eliminates the possibility of the appearance of twins without any additional devices for extracting excess seeds, which will exclude crushing of seeds.

Making the bottom of the dispenser with a cone in the center, an angle at its top, equal to 150-155 °, eliminates the formation of a quiet zone in the center of the dispenser, since in the center of the disk the centrifugal force is insufficient to move them to the vessel walls.

The proposed device provides an increase in the accuracy of placement of seeds in a row by improving the cell filling capacity by 10-15%.

In comparison with the base sample (eg, eats-12), the proposed device allows to increase the working speed from 6-7 to 10-12 km / h, provides an increase in labor productivity by 60-80%. .

Claims (4)

1. SOWING UNIT Including seed hopper, mounted underneath metering unit with drive for its rotation and cells - openings for. seed, a compressed air supply system with an outlet, and a seed tube, characterized in that, in order to improve the quality of sowing seeds at higher speeds, the metering device is made in the form of a horizontal cylinder installed in the casing with the outlet, with a horizontal bottom. having in the central part a protrusion in the form of a cone, and in the wall of the container parallel to its axis, through holes are made communicating with the cavity of the container through the cell-holes for seeds, the latter being made in the wall of the container at the level of its bottom, enes radially and have a diameter equal to the diameter of the through holes. 2. The apparatus pop.1, characterized in that between the base of the housing and the bottom of the dispenser is installed having in the zone of ejection of seeds into the vas deferens holes of the o-ring of antifriction material. 3. Apparatus pop. 1, characterized in that the cell-holes for seeds are located at an angle of 5065 ° to the vertical axis of the dispenser. 4. The apparatus according to π.1, is thin with the fact that the cone of the bottom is made with uglrm at an apex equal to 150-155 °. ί "SU" ί) 1128857 1 1128857 2