SU1045839A1 - Working member for spreading fertilizers - Google Patents

Abstract

WORKING BODY FOR EXPANSION; FIRST FERTILIZER EXPERIENCES contains a cone disk with blades mounted on the frame of the machine, between the beginning with 3 layers of which are air intake holes directed at an angle to the blades of the disk, characterized in that in order to increase the width of the fertilizer sieving and self-cleaning disk and blades, it is supplied with a source of compressed air and nozzles installed in the air intake holes, and the disk and the frame have external and internal collars that form an annular chamber, which communicates with the nozzles, while The outer ring has an annular groove in which the ball is placed, and tangential holes for the supply of compressed air are made in the inner ring; we will take the last holes along the axis of the annular groove. ate 00 with p

Description

The invention relates to agricultural machinery, in particular, to devices for planting fertilizers on the soil surface: A working body for spreading fertilizer is known, which contains a tapered disc — with radially shaped blades Cl. The disadvantage of this working body is the insignificant width of the spreading of fertilizers. Most, bluntly, to the technical essence of the invention is a working body for spreading fertilizers containing a cone disk mounted on the machine frame with blades, between the beginnings of which air intake holes are made, directed at an angle to the blades of the dis. However, in this device, the disc and blades stick with fertilizer during operation, which leads to a sharp decrease in the width of the fertilizer sieving. The disk equipment with air inlets for orienting air flow to the working surface of the blades is also not efficient enough. The aim of the invention is to increase the width of the sowing of fertilizers, self-cleaning of the disk and blades from them. The goal is achieved by providing the working body of the device with a source of compressed air and nozzles installed in the air intakes, and external and internal collars fixed on the disk and frame. forming an annular chamber, which communicates with the nozzles, while in the outer holder there is an annular groove in which the ball is placed, and in the inner holder there are tangential holes for the supply of compressed air, m last formed by an annular groove axis, FIG. 1 shows the working body section; in fig. 2 shows section A-A in FIG. one; in fig. 3 working org top view; in fig. 4, section B-B in FIG. 3; The working member for spreading fertilizers contains a cone disk 2 mounted on a frame 2 with blades 3, between the beginnings of which air intake holes 4 are made on the disk 2 and directed at an angle to the chambers 3 of disk 2. Working The organ is also supplied with a source of compressed air (not shown) and nozzles 5 installed in the air intake holes, an outer 6 is fixed on the disk 2, and an inner 7 holder on the frame 1 forming an annular chamber 8 which communicates with the nozzles 5. In the outer holder 6 ring groove 9 is made in which the swarm is placed ball 10, and in the inner 7 are tangential holes 11. Air is supplied to the working body from a source of compressed air through fitting 12. The annular chamber 8 is connected to the nozzles 5 through an additional chamber 13. The disk 2 is fixed on the shaft I, which is mounted in the inner the holder 7 on the bearings 15 and is connected to the mechanism 1b drive. The annular chamber 8 is sealed with the help of the gland 17. For a conical disk, it is necessary to make holes 18 in the central non-conical part for water drainage. The outer collar 6 is fixed to the disk 2 rigidly, wherein the orientation of the tangential holes 11 along the axis of the annular groove 9 is carried out by adjusting the rings 19. The tangential holes 11 can be oriented both in the direction of rotation of the disk 2 and against. The nozzles 5 and the ball 10 can be made of metal, ceramics, 1 synthetic materials. Not only air, but also other compressed gases, such as exhaust gases from a tractor or a car, are used as the working medium accelerating the ball 10. A variant of the working body is possible when air from the additional chamber 13 does not come out through the nozzles 5, but through the holes in the outer holder 6, as well as a variant of the position of the disk 2 in the lower part of the working body. Then, in order to orient the flow of air to the working surface of the blades 3, the nozzles 5 should be inserted into the holes of the outer cover 6 made in the area of the additional chamber-13. The working body works as follows. When turning on the mechanism 16, the shaft 14, mounted in the housing of the boy 7 on the bearings 15, comes movement, and with it the disk

2 with blades 3. At the same time, the fertilizers fed to the working member under the action of centrifugal force fly off the blades 3 and are distributed on the surface lol. At the same time, compressed air is supplied to compressor 12 from the compressor, which through tangential holes 11 enters the annular chamber 8 formed by the external 6 and internal 7 cages attached to the frame 1 of the machine, and accelerates the ball 10 along the axis of the ring groove 9 to speed 50 100 m / s. When 1 and ball 10 is rotated, centrifugal inertia forces arise that excite oscillations of a wide range of frequencies within 100-5000 Hz. These oscillations are transmitted to DR1SK 2 with blades 3, which leads to self-purification from stuck fertilizers, while the amplitude of oscillations of the disc 2 is small and, in the horizontal plane, is 0.3-0.7 mm.

and in the vertical 0.1-0.3 mm. The exhaust air from the annular chamber 8 enters the additional chamber 13, and from there through the nozzles 5 it is organized into streams. On the working surface of the blades 3. Moving along the working surface of the blades, the air flows enhance the cleaning effect. In addition, the air flow moving.

along the paddles, additional velocity is reported to the fertilizer particles, thereby increasing the sieving width of the fertilizer. In addition, passing with the direction of movement along

fertilizer blades air currents to a greater extent affect the fine particles, which have a greater coefficient of windage and usually fly off the blades later than the larger ones

particles. This reduces the separation of fertilizer fractions at the spreading angle, and therefore improves the quality of fertilizer application.

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Claims (1)

A WORKING BODY FOR SPREADING FERTILIZERS, containing a conical disk 4 with blades mounted on the machine frame, between the beginnings of which there are air inlets directed at an angle to the disk blades, characterized in that, in order to increase the width of the fertilizer sowing and self-cleaning the disk and blades, it equipped with a source of compressed air and nozzles installed in the air inlet openings, and an external and an internal cage are formed on the disk and frame, forming an annular chamber that communicates with the nozzles, while in the outer The ring has an annular groove in which the ball is placed, and tangential openings £ for supplying compressed air are made in the inner one, the latter being made along the axis of the annular groove. FIG. ? ί