SU1012821A1 - Pneumatic sower - Google Patents

Abstract

A PNEUMATIC SEAL, containing a frame with a vibrating bucket for the seeds, above which is placed the sowing device as pumping nozzles with cells for sucking the seeds communicated with the pneumatic system, furrowing and sealing the working bodies, so that n, under the branches of the branch pipes, in the zone of ejection from them of seeds, a valve mechanism is installed, made in the form of a fixed shaft and a rotary tube coaxially mounted on it, which are made with through holes for seed. w 1C 00 1C

Description

The invention relates to agricultural machinery, in particular, pneumatic seed machines, which can be used for precise sowing of vegetable and tobacco seeds. Pneumatic seedlings are known that contain a frame, a bunker, a sowing apparatus in the form of a pipe with through cells for the seeds communicated with vacuum. A disadvantage of these springs is the insufficient accuracy of seed sowing, due to their considerable variation in soil n from the cells of the sowing apparatus to the bottom of the groove. The closest in technical essence and the achieved result to the invention is its pneumatic block containing a frame with a vibrating seed bucket, above which is placed the sowing apparatus in the form of pumping nozzles with cells for suction of seeds communicated with the pneumatic system, grooved and sealing working bodies 2 The disadvantage of this crop is the insufficient accuracy of sowing of seeds, due to the considerable height of the fall of seeds from the ports of the branch pipes and the higher rate of fall of seeds on the soil. The purpose of the invention is to increase the accuracy of seeding. This goal is achieved by the fact that in a pneumatic spawn containing a frame with a vibrating bucket for seeds, above which is placed the sowing device as pumping nozzles with cells for sucking the seeds communicating with the pneumatic system, the furrow forming and sealing working bodies under the cells of the nozzles A valve mechanism, made in the form of a stationary shaft and a rotary tube coaxially mounted on it, which are made with through holes for the seed, is installed in the zone of ejection from them of seeds. In FIG. 1 shows a pneumatic slide, Bip on the side; in fig. 2 - branch pipe of the sowing apparatus, incision; in fig. 3 - the relative position of the shaft and the rotary tube of the valve mechanism, the collection of seeds; in fig. 4 - the same, sowing seeds. The pneumatic crop contains a frame 1 on which a furrow forming roller 2, a press roller 3, and a metering hopper 4 with a roller 5 are fixed. Under the bunker there is a vibrating bucket 6 hinged to the frame, kinematically connected by a spring-loaded bar 7 with a cam drive mechanism 8. A sowing device is placed above the bucket. It is made in the form of a pipe 9 with pumping nozzles 10 with cells 11 for sucking seeds fixed on it at a predetermined interval. The pipe 9 of the metering unit is connected by a pipe 12 to the pneumatic system of the crop, made in the form of a pulsator 13, communicated with a vacuum pump 14. The pipe 9 by means of the lever 15 is connected with a crank mechanism 16 of the drive. Seven wires 17 are located under the cells of the nozzles 10 of the sowing apparatus, in the zone of ejection from them of seeds, under which, at a distance of 2.5-3.0 cm from the groove, a valve mechanism is placed in the form of a shaft 18 rigidly fixed to the frame with loose holes 19 and coaxially mounted on it a rotating pipe 20 with through holes 21 and 22. The rotating pipe 20 through the lever system 23 is connected with the cam mechanism of the drive 8. The pneumatic separator operates as follows. When the spindle is put into operation, the torque from the drive, for example, an electric motor, is transmitted through a flexible transmission to the furrowed roller 2, which ensures the forward speed of the spreader. The cam mechanism of the drive 8 through the lever 15 provides the vibration of the bucket 6 and the seeds located in it, which come in even portions through the coil 5 of the hopper 4. The crank mechanism 16 ensures the movement of the nozzles 10 of the seed meter from the seed intake zone from the wire 17 to the seed ejection zone. When the nozzles 10 move to the seed pickup zone in the bucket 6, the pulsator 13 creates a vacuum in the pipe 9 and the nozzles 10, which ensures that the cell 11 of one seed is sucked. When the nozzles 10 are moved to the seed ejection zone, the pulsator 13 creates an overpressure of air in the pipe 9 and the nozzles 10, ensuring the ejection of seeds from cell 11 into this wire 17. The seeds of this wire 17 enter the holes 19 of the valve shaft 18 and the inner wall of the rotary tube 20, while acquiring a zero fall rate. When the seed moves on a path equal to the seeding step, the lever system 23 and the cam mechanism of the drive rotate the pipe 20 to a position where the holes 19 of the shaft 18 communicate with the holes 22 of the rotary pipe 29, and the seeds fall to the bottom under their own weight sowing, grooves. The presence of the valve mechanism and its installation at a height of 2.5-3.0 cm of the sowing groove provides a low rate of falling of seeds on the soil, which allows reducing the spread and improving the accuracy of their distribution both over the area of sowing and over the embedment depth. The annual economic effect of planting seeds per 1 hectare of the greenhouse is 2; 3 thousand rubles.

FIG. 2

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Claims (1)

PNEUMATIC SEEDER containing a frame with a vibrating bucket for seeds, over which the sowing device is placed in the form of swinging nozzles connected to the pneumatic system with cells for sucking the seeds, furrow-forming and closing the working bodies, characterized in that, in order to increase the accuracy of seeding, under the cells of nozzles in the zone of ejection of seeds from them, a valve mechanism is installed, made in the form of a fixed shaft and a rotary pipe coaxially mounted on it, which are made with through holes for mian FIG. 1