RU2343679C1 - Distribution head of pneumatic sowing machine intended for sowing loose materials - Google Patents

Abstract

FIELD: agricultural industry; mechanics.

SUBSTANCE: distribution head consists of an inlet pipeline, a distributor with discharge connection pipes, a cover, and a guide. The latter is made in the form of a cone the surface of which is formed by rotation of generator in the form of arc of circle about the axis of inlet pipeline of distributor. Arc of circle is equal to π/2 radian of the inlet pipeline radius. Conical surface of the guide is provided with radial rounded grooves. Cavities of the grooves located below cone base smoothly adjoin the plane of the cover internal surface. On the distributor cover there installed is an air vibrator. The latter consists of an air-distributing chamber with an annular channel, a perforated baffle plate with an air-permeable bottom, and a connection pipe. In annular channel there freely installed is at least one ball. Axis of the connection pipe axis is located in a horizontal plane crossing the ball centre. In annular channel cavity, on the side opposite to compressed-air distributing connection pipe, on its external wall there fixed is a wedge. Top of the wedge faces the connection pipe, and the length of the side which is the first to comprise the top, in the movement direction, is bigger than the other one. Internal channel wall in the zone of the wedge is bent in the direction of the connection pipe. At that cross section of the channel in same zone is maintained for ball to pass it. The cover located in the zone of cone base of the air flow guide is perforated.

EFFECT: improving uniform distribution of seeds with different mechanical-and-physical properties.

4 dwg

Description

The invention relates to agricultural machinery, in particular to distribution devices for sowing bulk materials - seeds or spreading mineral fertilizers.

Known distribution head of a pneumatic seeder for sowing bulk materials, containing an inlet pipe, a distributor with outlet pipes and a cover and a guide made in the form of a convex wave-like plate in cross section (ed. Certificate of the USSR No. 314336, class A01C 7/04, 1967).

The disadvantage of this device is that the uniform distribution of seeds, significantly differing in their physicomechanical properties and seeding rates, does not always satisfy the agrotechnical requirements.

The closest in technical essence to the proposed is the distribution head of a pneumatic seeder for sowing bulk materials (RU 2060617, IPC АСС 7/04, 1993), containing an inlet pipe, a distributor with outlet pipes and a cover and a guide, the guide made in the form of a cone, whose surface is formed by rotation around the axis of the inlet pipe and the distributor forming a circular arc in the form of an arc equal to π / 2 rad of the radius of the inlet pipe, while the conical surface of the guide has p dially rounded grooves, hollows lower cone base smoothly mated with the plane of the inner surface of the distributor cap.

The disadvantages of this design solution are clogging of the distribution head and, as a consequence, a decrease in the uniformity of the distribution of bulk materials with different physical and mechanical properties across individual coulters.

The objective of the invention is to increase the uniformity of distribution of bulk material with various physical and mechanical properties across individual openers by applying shock-vibration effects on the working elements of the distribution head.

This object is achieved in that the distribution head of a pneumatic seeder for sowing bulk materials, containing an inlet pipe, a distributor with outlet pipes and a cover and a guide, the latter being made in the form of a cone, the surface of which is formed by rotating around the axis of the inlet pipe of the distributor forming a circular arc equal to π / 2 rad of the radius of the inlet pipe, while the conical surface of the guide has radial rounded grooves, the depressions of which are lower than the cone innovations smoothly mate with the plane of the inner surface of the distributor cover; according to the invention, it is equipped with a pneumatic vibrator mounted on the distributor cover, comprising an air distribution chamber with an annular channel, a perforated partition with an air-permeable bottom, at least one ball freely installed in the annular channel and connected to the channel with a pneumatic system, a nozzle whose axis is located in a horizontal plane passing through the center of the ball, while in On the outer side of the annular channel channel, a wedge is fixed on its outer wall, the apex of which is oriented toward the nozzle side, and the length of the first one along the sides forming the apex is longer than the other, and the inner channel wall in the zone of the said wedge is curved towards the nozzle while maintaining the cross section channel for the passage of the ball, and the lid in the area of the base of the cone of the air guide is perforated.

Figure 1 schematically shows the distribution head of a pneumatic seeder for sowing bulk materials; figure 2 is a view of the flow guide from the bottom with three cross sections; figure 3 - distribution head, top view; figure 4 - section bb in figure 1.

The distribution head contains an inlet pipe 1, a distributor 2 with outlet pipes 3, a lower horizontal base 4 and a cover 5, a flow guide 6 with grooves 7.

The flow guide 6 is made in the form of a cone, the surface of which is formed by rotation around the axis of the inlet pipe and the distributor forming a circle in the form of an arc equal to π / 2 radians of the radius of the inlet pipe. The center of the radius of the guide is located on the line of the inner surface of the distributor and at a distance from the distributor cover equal to the radius and depth of the grooves. The diameter of the base of the guide is equal to the diameter of the inlet pipe.

The flow guide is mounted on the cover of the distributor, and the top of the cone is lowered into them towards the flow of air transporting the seed.

On the conical surface of the flow guide 6 there are radial rounded grooves 7, the depressions of which below the base of the cone smoothly mate with the plane of the inner surface of the distributor cover. Moreover, the radial grooves of the conical surface of the guide expand from the top to the base according to the condition (see figure 2) l ₁ > l ₂ > l ₃ >; r ₁ > r ₂ > r ₃ ; h ₁ > h ₂ > h ₃ : where l is the distance between the axes of the depressions; r is the radius of the depressions; h is the depth of the troughs.

In order to maintain the flow rate of air with the transported material during the transition from the vertical direction to the horizontal inlet window of the distributor, formed by the lower horizontal base and cover, has a height (H) within half the radius of the inlet pipe and distributor (R / 2) Н = R / 2 .

The distribution head is equipped with a pneumatic vibrator, which is located on the cover of the distributor and contains an air distribution chamber 8, the housing 9 of which is made with a flange 10 and an annular channel 11, a perforated baffle 12 made of sheet material, a breathable bottom 13 and an activator made in the form of a ball 14. Ball 14 is freely installed in the annular channel 11, having a section 15 expanding inward due to the bending of the inner wall of the latter, in the area of which a wedge 16 is installed on the outer wall of the channel 11 the location of the wedge 16 is selected so that the speed of the ball 14 in this zone is maximum, i.e. on the diametrically opposite side of the compressed air supply pipe 17. The axis of the pipe 17 is located in a horizontal plane passing through the center of the ball 14, which provides the best conditions for accelerating the latter. Section 15 has the same cross-sectional size for the passage of the ball 14, as well as the main annular channel 11. The length of the first side of the wedge 16 along the ball is made longer than the other side. The cover in the area of the base of the cone of the air flow guide has a perforation 18 for the passage of compressed air from the pneumatic vibrator into the internal cavity of the distributor.

The distribution head operates as follows.

The sowing material is transported by air flow through the inlet pipe 1 to the distributor 2, in which the sowing material together with the air flow is sent to the inlet window of the distributor 2, where it is distributed through the outlet pipes 3. The guide 6 smoothly transfers the air flow with the transported sowing material from the vertical flow in horizontal and directs to the input window of the distributor. The grooves 7 of the guide 6 give the air flow and the sowing material a steady smooth directional movement, which increases the uniformity of the distribution of seeds among the individual coulters.

When compressed air is supplied through the pipe 17 to the air distribution chamber 8 of the pneumatic vibrator, it rushes at a high speed along the annular channel 11, affecting the ball 14 and causing it to move. During its movement along the annular channel 11 and the passage of section 15, the ball 14 smoothly runs around the long (flat) side of the wedge 16, the second side of which abruptly breaks off. The ball 14 first hits the inner wall of the channel 11 by centripetal force, then abruptly drops it and strikes the outer wall of the channel 11 by centrifugal force, thereby ensuring a stable vibration mode of the flow head of the distribution head. Compressed air passing through the holes in the partition 12, the breathable bottom 13 and the perforation 18 in the cover 5 of the distribution head, goes into the internal cavity of the distributor. In this case, the perforation zone around the guide is a vortex-free air outlet from the pneumatic vibrator, which, in turn, eliminates the collision of the seed with the cover and damage to the material particles in the zone of transition of the air flow from vertical to horizontal.

The shock-vibration mode of action of the pneumatic vibrator on the flow guide contributes to the self-cleaning of the working surfaces of the head from sticking by the particles of the sown material, including the adhesive-active material when sowing mineral fertilizers. In this case, the air flow with the sown material smoothly flows around the conical surface of the guide with continuous sliding of the material in the radial rounded grooves and is sent to the outlet pipes, respectively, the damage and crushing of the material is reduced. Reducing the stickiness of the working surfaces increases the uniformity of distribution of the sowing material with various physical and mechanical properties along the outlet pipes.

A more uniform distribution of seeds or fertilizers along the discharge nozzles, and therefore also on the seeders, increases the productivity of cultivated crops, reduces injury to seeds, improves their germination, which also increases productivity.

Claims (1)

The distribution head of a pneumatic seeder for sowing bulk materials, containing an inlet pipe, a distributor with outlet pipes and a cover, and a guide, the guide being made in the form of a cone, the surface of which is formed by rotating around the axis of the inlet pipe of the distributor a circle in the form of an arc equal to π / 2 rad radii of the inlet pipe, and the conical surface of the guide has radial rounded grooves, the depressions of which below the base of the cone are smoothly mated with the inner surface of the distributor cover, characterized in that it is equipped with a pneumatic vibrator mounted on the distributor cover, which comprises an air distribution chamber with an annular channel, a perforated partition with an air-permeable bottom, at least one ball freely installed in the annular channel, and communicating with the channel with a pneumatic system a nozzle whose axis is located in a horizontal plane passing through the center of the ball, and in the cavity of the annular channel with On the outer side of the side of the pipe, a wedge is fixed, the apex of which is oriented towards the nozzle, and the length of the first along the sides of the sides forming the apex is longer than the other, while the inner wall of the channel in the wedge zone is curved towards the nozzle while maintaining the cross section of the channel for the ball to pass and the cover in the area of the base of the cone of the airflow guide has perforation.

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