SU1020028A1 - Pneumatic sowing apparatus - Google Patents

Abstract

A PNEUMATIC SOWING DEVICE, comprising a hopper with a feed channel and a housing connected to it with a working chamber formed by the inner surfaces of the housing and a vertically mounted seeding disk with cells made on its cylindrical surface that are coupled to the inner surface of the housing and connected to the working chamber characterized in that, in order to improve the quality of single-grain seeding, the sowing disc is provided with an annular ring located on its face surface on the side of the working chamber stupa with slots that are made in the area of the disk cells.

Description

FIELD OF THE INVENTION The invention relates to the sectoral engineering industry, and to the exact Bijiceea. A non-pneumatic sowing apparatus is known, which includes a hopper with a feed channel connected with a working chamber formed in the 1-lined surface of the body and vertically dissociated fox-sowing foxes with open cone in neeries 1. The disadvantage of this (Lo apparatus - the performance of sowing seeds when seeding large standards at high speeds of the nose of its unit. The closest in technical essence to the proposed is a pneumatic sowing device, including a hopper with feed Connecting to it a housing with a working chamber formed by the inner and upper corpus of the case and a vertical mounted disk with cells, made on its cylindrical surface, which are SonnexP) 1 with the inner surface of the housing and connected to the working chamber 2 |. The disadvantage of the known device is the low efficiency of the 1E1 and the seed of the cells, since I) the public health only blows them away in the radio direction and, therefore, the high quality of the single injected seeding is not achieved. The purpose of the invention is to increase the quality of single-grain seeding. This goal is achieved by tem that the sowing disk is provided with a working chamber on its face surface from the side) a working chamber with cutters that)) into the cells of the disk. Such a device in three halves ensures reliable seizure of the seed in the middle of the unit and unit seed from the cells both in the radial direction and in the direction of the disk rotation, which contributes to the quality of the single grain o) H) B1). FIG. 1 to image 1 of the evmatical sevactions and sharath, in FIG. 2 a section A-A in FIG. one; ia. 3 - section B - B in FIG. one; ia (. 4 v. sowing Oshny disk, general view; and. 5 section B - B in Fig. 4. Pneumatic) 1,: nd (the information includes the bunker 1 with. 2 i connected with 1 3 with the working chamber 4, formed inside the inner and outer surfaces of the housing 3 and vertical) with an installed disk 5 with cells (J. Cell 1 6, full 1) located on the cylindrical surface of the disk 5, are connected to the inner surface of the housing 3 n and connected to the working terminal. measure 4. On the end surface of the sowing disc 5 from the side of the working chamber PIJ 4 with a gap of relative to the inner surface of the housing 3 there is an annular platform 7, n The slots 8 are made in the area of the cells 6 in the annular protrusion 7. The size of the slots 8 in the rotation of the disk is larger than the size of the cells 6. The air nozzle 9 is supplied to the working chamber 4 in the housing 3, B1) channel 10 with cover 11. operates as follows. A seed tank from the bunker 1 feeds the canal j y 2 into the body 3, into its lower part (filling) of the working chamber 4. At one time, through the nozzle 9 in the upper part of the working chamber 4, the seed disk 5 is fed the air that creates in it the excess pressure necessary to trap and hold the seeds in cells 6 and simultaneously blows out (removes). sempa from cells. Due to the fact that in the annular protrusion 7 in the zone of the cells 6 are made of a sufficient size 1) of the cut 8, the face is seated both in the radial direction and in the direction of rotation and of the disk. seed cells 6 in the upper part of the working compartment 4 are exposed to the air flow, which through the nozzle 9 blows the seeds out of them. The residuals on the disk are individual unit change. In the outgoing, 1 10, where after opening the cells 6 from the side ib of the corn 3 in the radial direction, they leave the apparatus. With this, in the ejection zone, outside of the seeding of the entire disc 5, the pad 11 ensures the release of excess air pressure along the opening of the cell, thus achieving a more efficient and clear release from the seeds. The use of the proposed design for seeding 1, an apparatus as compared to limescale reproduc- tion, allows to increase the efficiency of filling the cells at the POF)) rotational speeds and the speed of the .1O) to be removed; 1 the excess seeds from them laterally) .m 5th float. This ensures the quality of the single-grain i.sev.

Claims (1)

PNEUMATIC SOWING UNIT, including a hopper with a feed channel and a housing connected to it with a working chamber formed by the inner surfaces of the housing and a vertically mounted metering disk with cells made on its cylindrical surface, which are interfaced with the inner surface of the housing and connected to the working chamber, characterized in that, in order to improve the quality of single-grain sowing, the sowing disk is equipped with an annular protrusion located on its end surface from the side of the working chamber with slots that are made in the area of the disk cells.