RU2269884C2 - General-purpose drill - Google Patents

Abstract

FIELD: agricultural engineering, in particular, seed sowing and fertilizer applying equipment.

SUBSTANCE: drill has drum rotating on immovable hollow shaft and provided with sowing seed guides, with seeds being internally charged into seed guides from hopper. Drum cavity is divided into central chamber and small peripheral chambers arranged along internal perimeter of drum. Each of small chambers has slit-shaped funnel and is connected to seeding chamber equipped with restricting shutter for single feeding of seeds, said shutter having gap regulator for feeding of seeds having different sizes. Shield disposed in said chamber is adapted for timely sowing of seeds and provided with shield inclination regulator. Sowing seed guides consist of plates and are rigidly fixed on outer surface of drum. Drill may be operated with the use of low-power mechanisms and also by agricultural labor force.

EFFECT: provision for single sowing of seeds of any size and applying fertilizers with predetermined parameters in horizontal and vertical planes into plowed or unused field, as well as into virgin soils.

8 cl, 5 dwg

Description

The invention relates to agricultural machinery and can be used for sowing forest seeds, seeds of agricultural crops, fertilizing and gardening.

The closest in technical essence to the claimed invention is a universal seeder, which is disclosed in the application RU No. 2002118553/12, 20.01.2004. The seeder has a seed hopper, a rotating drum, the cavity of which is divided into the main central and small peripheral chambers, each of which has a funnel and is connected to the sowing chamber and seed seed tube, rigidly located on the surface of the drum, while the hopper is connected to the drum cavity through the vas deferens through its hollow axis, which is rigidly connected to the drum.

Known seeder has the following disadvantages: it has limited ability to feed seeds into the drum; intended only for crops having seeds of the same size; has a difficult passage of non-standard seeds (oats, etc.) from the central storage chamber through a round funnel into a small chamber; a very complex process for the production of seed seed tubes, which makes agricultural producers dependent on the manufacturer’s plant, especially in the field season; does not have control of sowing seeds in the soil; the issue of seeder prophylaxis in case of failure of any of the sowing seed tubes is not resolved.

The aim of the invention is to solve one of the narrow issues in an extensive program for implementing zero technology for cultivating crops, especially in the arid zone, which provides for such requirements for sowing devices as ensuring the accuracy of sowing seeds with specified parameters horizontally and at the depth of seeding on arable land, fallow and virgin soils without disturbing the natural grass stand and felt litter in a complex geomorphological relief with steep and very steep slopes. The seeder should have a low specific pressure on the soil using low-power equipment and manpower during its operation.

The objective of this technical solution is to create a universal seeder, devoid of the above drawbacks, and ensure agricultural requirements in accordance with new technologies: environmentally friendly, energy and resource-saving, moisture-proof, leading to increased soil fertility.

This object is achieved in that in a seeder containing a seed hopper, connected through the vas deferens to the hollow axis of the rotating drum, the cavity of which is divided into a central chamber and peripheral chambers, each of which has a funnel and is connected to a sowing chamber having a restrictive shutter for piece feed seeds and flap for timely sowing of seeds and connected to the sowing seed tube, rigidly located on the outer surface of the drum and having a curved end in the direction of movement the drum, funnels are made in a slit-like shape, the shutters for single-piece seed feeding are equipped with a regulator of the gap for feeding seeds of different sizes, and the flaps for timely sowing of seeds are equipped with a slope regulator, while the sowing seed tubes are made of plates. In addition, the bending radius of the seed tube from the plates forming the trihedral prism and tetrahedron is comparable with the inner diameter of the cylinder inscribed in the trihedral prism and tetrahedron. The drum is mounted on a fixed axis. The lower part of the sowing seed tubes is filled with alloy and pointed. The seed tube is connected to the hollow axis from above. The hopper and sowing chambers are equipped with sensors for sowing seeds. The drum has a wedge-shaped shape, and preventive windows are made on one side of the drum along its perimeter.

The invention is illustrated by drawings.

In Fig.1 shows a seeder, a General view.

figure 2 is a view from the back of the drum.

Figure 3 shows in detail the most important parts of the seeder.

Figure 4 depicts the shape of the plates from which the seed tube is made.

Figure 5 depicts a diagram of the greatest contact with the soil of a seeder-drum with a wedge-shaped surface.

The seeder contains a seed hopper 1, a dispenser 2, a seed tube 3, an axis of the drum 4, a drum 5, a central collecting chamber 6, small peripheral chambers 7, a slit-like funnel 8. Each peripheral chamber has a guiding part 9. The drum also has sowing chambers 10, each of which has a restrictive shutter 11 for single-piece seed supply and a flap 12 for timely sowing of seeds. The chambers 10 are connected to the sowing seed tubes 13 having tips 14. The flaps 11 are equipped with a regulator of the gap for feeding seeds of different sizes 15, and the flaps 12 are equipped with a regulator of their inclination 16. In addition, the sowing chambers 10 and the hopper 1 have electronic sensors for monitoring the seed 17 and 18 respectively. On one side of the drum 5, along its perimeter, preventive windows 19 are made.

     The seeder works as follows.

When the seeder moves across the field under the influence of the traction force of the mechanisms or manpower, the sowing seed tubes 13, being introduced into the soil with sharp tips of a triangular shape 14, rotate the drum 5. The seeds that are filled in the hopper 1 (there may be granular fertilizers) under the influence of gravity through the dispenser 2, the vas deferens 3, inserted into the fixed axis 4 from above through the hole, enter the central chamber 6. During the movement of the drum 5, the whole mass of grain is to the right of the vertical drawn from the center of the axis of rotation of the drum. The distribution of seed mass on the inner surface of the drum is directly dependent on the angular velocity - the higher the speed, the more stretched the mass, more and more approaching the top point of the drum. So with a drum diameter of 1 meter, the sowing speed should not exceed 7.9 km / h. Or at a sowing speed of 10 km / h, the diameter of the drum should be 1.6 m, etc. That is, with an increase in the sowing speed, the diameter of the drum increases, which in turn complicates the operation of the seeder. But in the end, everything will depend on many factors: climate, soil, topography, crop, seed size, etc. It may turn out that the most convenient and economical in these conditions are sowing drums of 2 and 3 meters in diameter, and in others - 0.2-1.0 meter.

Located below on the right side, the seeds under the influence of gravity through funnels 8 wake up in small peripheral chambers 7 which rise as the drum moves. But as the chambers 7 rise, the seed flow from the chamber 6 decreases and reaches zero at the 90 ° position with respect to the lower point of the drum.

With further movement of small chambers, the position of the funnels 8 with respect to the center and direction of gravity changes, and the resulting force acting on the seeds will be more and more directed at an acute, and then a negative angle to the plane of the funnel inlet, and some part of the seeds will roll out of the small camera.

When each small chamber reaches its upper point, the resulting force acting on the seeds will be directed downward or equal to zero. Under these conditions, if the small chamber is full, some of the seeds may spill out, but, given the ratio of the inlet and outlet openings and the position of the funnel, most of the seeds will remain in the small chamber and a further process of their accumulation will occur.

Moving further, having passed the upper point, the seeds in the small chamber will begin to move from right to left, filling the lower left corner of the small chamber, as a result of which they fall into the guide part of the chamber 9. The restriction gate 11 doses the seeds one by one into the sowing chamber 10.

During the last quarter of the drum’s movement around the circumference, excess seeds from the guide part of the chamber 10 and the shutter 12 are shifted in the opposite direction due to the remaining free space from the pressure from above, and the seed from the sowing chamber 10 rolls into the sowing seed tube 13 to its tip 14 along the control plate 13 only during the period of greatest penetration of the triangular tip 14 into the soil. A pointed triangle is the end of a prism bent 60-90 ° in the direction of movement of the drum (in the opposite direction from rotation) along the bending radius, commensurate with the inner diameter (0.2-40 cm) of the cylinder inscribed in the trihedral prism and tetrahedron, and beveled on a plane from the lower point of the edge of the prism of the outer side of the curved vas deferens to the upper point of the inner side of the bend through its center to the bend face. In this case, the lower part of the end of the bent prism is filled with a hard alloy and has a triangular shape with a flat area in the upper part, with sharp ribs and a pointed tip down - the top of the tetrahedron, one of the faces of which is located in the sectional plane of the end of the sowing seed tube 13. Such a seed tube, introducing into the soil to a full depth, forms a cone-shaped hole without clogging the soil, and does not allow the seed to sleep early ahead of time until the deepest, as it has at this end at the end of the vas deferens (tilt nick) horizontal platform. Only after the start of the rise of the vas deferens 13 does this platform bend and the seed falls out.

Thus, in the first quarter of the rotation of the drum, starting from the bottom point, two simultaneous processes occur: the process of loading seeds from the central storage chamber 6 into small peripheral chambers 7 and sowing the seeds into the wells.

The supply of seeds from the hopper 1 to the large Central chamber 6 through the vas deferens 3 through the fixed axis 4 allowed to increase the space for the vas deferens, thereby increasing its diameter, and therefore the volume and size of the sown seeds.

In the field, breakdowns are inevitable and, as a rule, the working part of the mechanism breaks, i.e. sowing seed tube. It is easy to make it in the conditions of local workshops from high-strength sheet metal with the parameters of the internal space appropriate for a tubular sowing seed tube.

The regulator of the clearance of the restriction flap 15 and the regulator of the inclination of the restrictive flap 16 allow you to use the seeder for sowing seeds of most crops ranging in size from millet to small peas, soybeans, etc., i.e. This seeder is universal. Of course, seeders of medium- and large-seeded crops will have slightly different characteristics of the size of the drum, its axis, vas deferens, small peripheral chambers, etc., but the principle of universality of sowing seeds with these seeders will be maintained for all crops. The set of such seeders on the farm can be reduced to 2.

Sensors for monitoring the seeding in the sowing chambers 17 and the hopper 18 will make it possible to save time on checking and preventing the seeder through the preventive windows 19 and to produce better sowing.

It should be noted that by changing the length of the sowing vas deferens 13 from 0.5 to 30 cm, you can adjust the depth of seed placement, and accordingly the interval, changing it between the sowing vas deferens from 2 to 100 cm.

Depending on the alignment of the field (degree of planning), the width of the drum can be from single-row to multi-row - from 3 to 100 cm.

In the conditions of deposits and virgin soils with a complex geomorphological relief with steep and very steep slopes, especially in the entered part of the terrain, a single-row drum seeder with a drum having a wedge-shaped shape with a pointed edge should be used, which will copy the relief and preserve the conditions for a given seed placement depth.

Based on the foregoing, it can be argued that this seeder can be used to apply granular fertilizers to the required depth.

By alternating single-row or multi-row drum seeders or their combinations, it will be possible to simultaneously sow seeds and fertilize. Moreover, using seeders with seed tubes of different lengths and intervals between them, seeds of different crops can be very precisely sown using different germination times, or crops and fertilizers with respect to each other and the surface and, finally, the same culture, using more deep fertile soil horizons.

It should be noted in particular that the universal seeder is not only simple in design and light, but it is also accessible to everyone for its operation, especially for small farms, in greenhouses, where not only low-power mechanisms can be used as traction force, but also living force, including man.

Claims (8)

1. A universal seeder containing a seed hopper, connected through the vas deferens to the hollow axis of the rotating drum, the cavity of which is divided into a central chamber and peripheral chambers, each of which has a funnel and is connected to a sowing chamber having a restrictive shutter for piece-feeding seeds and a shield for timely sowing of seeds, and connected to the sowing vas deferens, rigidly located on the outer surface of the drum and having a curved end in the direction of movement of the drum, characterized in a funnel formed of a slit-shaped form flaps for supplying the piece of seeds provided with a regulator gap to supply the seeds of different size, and the pads for timely seeding - control of inclination, thus sowing vas efferens made of plates. 2. The universal seeder according to claim 1, characterized in that the rotating drum is mounted on a fixed axis. 3. The universal seeder according to claim 1, characterized in that the bending radius of the seed tube from the plates forming the trihedral prism and tetrahedron is commensurate with the inner diameter of the cylinder inscribed in the trihedral prism and tetrahedron. 4. The universal seeder according to claim 1, characterized in that the lower part of the sowing seed tubes is filled with alloy and pointed. 5. The universal seeder according to claim 1, characterized in that the seed tube is connected to the hollow axis from above. 6. The universal seeder according to claim 1, characterized in that the hopper and sowing chambers are equipped with electronic sensors for sowing seeds. 7. The universal seeder according to claim 1, characterized in that the drum has a wedge-shaped shape. 8. The universal seeder according to claim 1, characterized in that on one side of the drum along the perimeter there are preventive windows.

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