SU1407429A1 - Pneumatic sowing apparatus - Google Patents

Abstract

The invention relates to the field of agricultural engineering. The purpose of the invention is to improve the uniformity of seeding. The metering device contains a hopper 1 located in its lower part and on the side of it an aeration chamber 2 with an end wall 3, a metering window 4 and a bottom. Air manifold 6 is connected to an overpressure source. In the upper part of the chamber, there is an end section 7 of the collector 6 with a transporting nozzle 8. Section 9 of the collector 6 is fixed below the bottom and communicated with the breather chamber of the slot opening 10. Section 7 and 9 of the collector are connected by a flexible hose 11. The dosing window 4 has an adjusting valve 12 and the chamber wall 13 is made movable by means of the mechanism 14 for adjusting the position of the nozzle 8. This metering wire 20 is located behind the metering window 4. The ascending air flow from the slot hole 10 feeds the seeds into the air flow leaving the ground sportiruyuschego nozzle 8 which further delivers seeds to a metering window 4 and the conductive seed 20 while providing uniform supply of seeds in the seed is carried out. 3.pf-ly, 2 ill. L S

Description

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The invention relates to agricultural machinery engineering, in particular, to designs of pneumatic sowing devices “

The purpose of the invention is higher uniform seeding uniformities,

Fig, 1 schematically shows the sowing apparatus; in FIG. 2 - section AA in FIG. 1 s

The apparatus contains a bunker 1 for seeds with an aeroscic chamber 2, located in its lower part. The chamber taps off the end wall 3 with the metering window 4 that is filled in it, the bottom and the air collector 6 are connected to an overpressure source (not shown). The collector 6 contains an end section 7 with a transport nozzle 8, which is located opposite the metering window 4, and is located under the end section 7s under the bottom 5, section 9 with a slit hole 10 over the entire bottom 5, which communicates the collector with an internal volume -gam aeration chamber.

Sections 7 and 9 are located in the same plane and are connected by a flexible hose I1. The end wall 3 has an adjusting flap 12 serving to change the flow area of the window 4. The end section 7 of the collector 6 is located opposite to the window 4 and fixed to the wall 13s installed with by means of, for example, a "screw mechanism 14". By moving the wall 13 it is possible to change the distance by the nozzle 8 and the window 4 and thereby adjust the seeding rate. Section 9 is attached to the bottom 5 of the chamber 2 with a slit-shaped hole 10 BBepXj and the bottom 5 at the place of pressing the hole 10 to it is made with a slot 15 "The slit-shaped hole 10 is equipped with a flap 16 regulating its flow area in Chamber 2 in the upper part equipped with a visor 17, the lower edge 18 of which is located at some distance from the bottom 5 "Between the edge 18 and the bottom 5, a window 19 is formed to receive seeds from the bunker 1" The dosing window 4 passes into this wire 20,

The device works as follows:

In the seed bin 1, before sowing, sowing material is suspended, which by gravity fills the bottom

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Part of the aeration chamber 2. When seeding small-sized other slit 10, area 8 of air collector 6 is pre-blocked with a shutter 15. During the sowing process, air is supplied to the collector 6 from an overpressure source, shutter 16 Opens slit 10. slot 10 is covered with a significant layer of seeds. The air flow coming out of the nozzle 8 captures the upper seeds from the seeds above the slit 10 and feeds them into the dispensing window 4 and then through this wire 20 into the soil. When the thickness of the seed reaches a certain size above the slit 10, the air flow is redistributed between the nozzle 8 and the slit 10 "Part of the upward air flow exit 1-1 tons from

slits 10 of section 9 of collector 6 and passage through the layer of seeds, aerates them

The air flow coming out of the nozzle 8p selects seeds from the suspended mass and delivers them to the dosing tank 4

At the same time, seeds from the hopper 1 come under the visor 17 into the aeration zone above the slit 10. Dynamic equilibrium is established.

At the end of the sowing process, when the bunker 1 for the seeds is empty, all the seeds in chamber 2 to the last are fed with an upward flow of air coming out of the slot 10, into the air flow created by the nozzle 8, and then into the metering window 4. Air flow through the slot 10 at this reaches its maximum value, since a minimum resistance is created at the outlet of the slit 10. This ensures complete cleaning of chamber 2 from the seeds.

The use of the apparatus proposed makes it possible to increase the uniformity of the seed supply to this wire,. increase the uniformity of seeding and increase uro-. l oi

The use of the proposed apparatus only when sowing alfalfa by an isrod method will ensure high-quality sowing with the minimum required seed rate of 0.8-1.5 kg. At the same time, economical seed seeds will be saved from 3 to 6 kg / ha. Taking into account that I kg of seeds costs 15 rubles, the economic effect will be 45-90 rubles / ha.

In addition, the proposed apparatus is thoroughly cleaned of seeds, which reduces the complexity of servicing it during operation.

Claims (2)

Invention Formula one . A pneumatic metering unit containing a seed bin, aeration chamber at its lower part with a metering window and communicating through an air collector with an overpressure source with a conveying nozzle installed parallel to the bottom of the bunker, and an adjusting valve in the metering window differing from By the fact that, in order to improve the uniformity of seeding, the aeration chamber is placed on the side of the bunker, and the air collector is fixed below the bottom of the chamber and communicated through a slit opening along the entire length of the chamber with th internal volume, with the longitudinal axis of symmetry of the nozzle is located in the plane of symmetry of the slotted holes, 2. An apparatus according to claim 1, characterized in that the nozzle is mounted for longitudinal movement relative to the bottom of the aeration chamber. A a 16 9 Editor A. Motyl Compiled by V. Golenshtsev Tehred A. Kravchuk Order 3229/1 Circulation 661 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 nineteen FIG. g Proofreader M. Maksimishinets Subscription