SU1148582A1 - Pneumatic sowing apparatus - Google Patents

Abstract

I. A PNEUMATIC SEEDING MACHINE containing an input end of the seed channel for transporting a seed tank under the bunker window, the bottom of which is equipped with openings in series with intermittently connected sources of vacuum or air overpressure and connected to this opener wire that is different By the fact that, in order to reduce injuries of seeds during transportation, the bottom of the channel for transporting seeds is made in the form of an inclined trapezoid narrowing towards the exit a base end at which the openings in the spherical zone formed hermetically closed top recess elastic film, and a source of vacuum or positive air pressure is configured as a cylinder, wherein the parity part holes in the bottom conveying channel communicates with the seed nadporsh. There are no cylinder cavities, and the odd part is a sub piston cylinder cavity. 4 00 cl 00 y

Description

2. The apparatus according to claim 1, characterized in that the inlet and outlet ends of the seed transportation channel are respectively connected to the hopper and the seven wires with a flexible hose, and the input end of the seed transportation channel is provided with a screw angle adjustment mechanism

clone of its base, and the output end is connected to the joint of the joint.

3. An apparatus according to claim 1, characterized in that the width of the spherical depressions of the base of the seed transportation channel is decreasing. direction to the exit end.

The invention relates to agricultural machinery, in particular to pneumatic sowing machines that can be used for sowing germinated seeds. Seeding machines for seeding onion seedlings are known, containing a channel with a chic located in it under the exit window of the bunker, the output end of which is connected to this opener wire I., The disadvantages of such sowing machines are damage to the seed germination screw, which reduces seed germination the quality of sowing, as well as uneven sowing and overuse of seeds, necessitating the thinning of the seedlings. The closest to the invention is to the technical essence and the achieved result a pneumatic sowing device containing an input end of the seed transportation channel installed under the bunker window, the bottom of which is equipped with openings in series with periodically connected with a source of vacuum or overpressure of the air communicated with the seed cable of the opener 2. A disadvantage of the known sowing apparatus is the complexity of the source of vacuum and excess The pressure of air and uneven seed and the possibility of damage to the seed caused by the fact. When the channel bottom opening communicates with the source of air overpressure, the movement of the seeds is chaotic with the possibility of their impact with the upper and lower parts of the transport channel. The purpose of the invention is to reduce injuries to seeds during transportation. The goal is achieved by the fact that the bottom of the seed transportation channel is made in the form of an inclined trapezoid base narrowing towards the output end, on which spherical recesses are hermetically sealed from above with elastic film, and the source of vacuum and overpressure Some of the holes in the bottom of the seed transportation channel are in communication with the piston cylinder cavity, and the odd part is connected with the cylinder piston cavity. Moreover, the input and output ends of the seed transportation channel are respectively connected to the hopper and this wire via a flexible hose, while the input end of the seed transportation channel is equipped with a screw mechanism for adjusting the angle of its base, the output end is connected to the vomer. The width of the spherical recesses of the base of the seed transportation channel is made decreasing towards the exit end. FIG. 1 shows a pneumatic metering device in perspective; in fig. 2 - the same, side view; in fig. 3 - pneumatic sowing unit in section, side view; in fig. 4 shows section A-A in FIG. 3; in fig. 5 is a section BB in FIG. 3; in fig. 6 and 7 - the process of transporting seeds through the channel, respectively, when an odd part and then an even part of the channel bottom openings are communicated to the overpressure source; in fig. 8 - dependence of the frequency of connections of the openings of the bottom of the kaial - transportation of seeds to the source of vacuum and overpressure of air on the speed of movement of the seed; in fig. 9 shows the dependence of the frequency of connecting the channel bottom openings to the vacuum source and the air overpressure on the angle of inclination of the base of the seed transport channel. The pneumatic metering unit contains a seed transportation channel 3 installed under the window 1 of the hopper 2, the inlet and outlet parts of which are connected by means of flexible hoses 4 and 5 to the bunker which is tapered down and has step-arranged guide plates 6 with seven wire 7. the seed is made in the form of an inclined trapezoid of the base 8 tapering towards the output end, on the upper part of which sequentially arranged spherical depressions 9 with a decreasing width in the direction of and output channel.

The spherical depressions are hermetically sealed with an elastic film 10, and through snapshots 11 and pipes 12 and 13 are connected to a source of vacuum and overpressure, made in the form of a power cylinder 14, the working spaces of which are filled with any gas or liquid.

The cylinder 15 of the hydraulic cylinder is associated with the mechanism 16 of the reciprocating movement of the piston with the ability to control the frequency of movement of the latter.

The even part of the holes 11 of the base is in communication with the over piston cavity of the cylinder 14, and the odd part with the sub piston cavity of the cylinder.

The output end of the seed transportation channel is fixed by a hinge 17 on the body of the link 18, and the input end is connected by means of a screw mechanism 19 to a frame 21 mounted on the wheel 20.

To the opener through the spring and spring 22 attached press roller 23.

Pneumatic sowing apparatus operates as follows.

In the bunker 2 download germinated seeds, such as seeds of onion sets. Through the window 1 of the bunker 2, the seeds arrive at the surface of the trapezoid base 8. The angle of inclination of the base 8 on the frame 21 is selected based on FIG. 8 and 9. For example, at an angle of inclination of 20 °, the frequency of connections of pipelines 12 and 13 to the over- and sub-piston cavity of the cylinder 14 should be 55 connections per minute, and the speed of movement of the splitter should be 8 km / h. Then turn on the drive, which reciprocates the piston 15 with the piston in the cavity of the cylinder 14, filled with, for example, air. Under the action of the piston, the air alternately flows into the pipes 13 and 12. As a result, the elastic films 10, which cover the recesses 9, will rise above the surface of the base 8 and lower as shown in FIG. 6 and 7. In dynamics, this process is a wave-like displaced surface of the base 8, like waves arising in nature on the surface of water bodies. Due to this movement and due to the inclination of the base 8 towards the output end, the seeds will move to the wire 7 located in the vomer 18. The uniformity of the seed supply is ensured by sequential placement of spherical recesses, reducing their width towards the output end of the channel 8 and also due to redistribution of seeds n guide plates 6, with the number. The sown seeds are regulated by the frequency of movement of the piston of the hydraulic cylinder 14 and the setting of a predetermined angle of inclination of the seed transportation channel 8 by means of a screw mechanism 19. At the same time, the germinated seeds are not injured during their transportation from the bunker to embedding them in the soil.

The use of the proposed sowing apparatus for sowing sprouted seeds will significantly reduce the consumption rate of sprouted seeds during sowing, increase the uniformity of sowing, reduce their injuries, rather than increase the germination rate. The expected technical and economic effect from the use of the proposed wire

This consists of reducing seed consumption by 20% and increasing yields by 15% compared with the use of the known device.

 I.4

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FIG. five

Claims (3)

1. PNEUMATIC SOWING UNIT, containing the inlet end of the seed transport channel installed under the bunker window, the bottom of which is provided with holes that are periodically connected periodically in communication with a source of vacuum or excessive air pressure, and the outlet end of the transport channel is connected to the seed vault of the opener, characterized in that In order to reduce injury to seeds during transportation, the bottom of the channel for transporting seeds is made in the form of an inclined trapezoid tapering to the output end a base on which spherical depressions hermetically sealed on top with an elastic film are made in the area of the holes, and the source of vacuum or excess air pressure is made in the form of a power cylinder, with the even part of the holes in the bottom of the channel 5 for transporting seeds communicated with the over-piston cavity of the cylinder, and the odd part _? with a piston cavity of the cylinder. SU „„ 1148582 FIG. 1 Iϊ48582 2. The apparatus by π. 1,. characterized in that the input and output ends of the seed transport channel are respectively connected to the hopper and seed tube using a flexible hose, the input end of the seed transport channel being provided with a screw mechanism for adjusting the angle of the slope of its base, and the output end is pivotally connected to the coulter. 3. The apparatus by π. 1, characterized in that the width of the spherical recesses of the base of the channel for transporting seeds is reduced in. direction to YOU running end.