SU1005695A1 - Pneumatic fertilizer spreader working member - Google Patents

Abstract

THE WORKING BODY OF THE PNEUMATIC SPREADER OF FERTILIZERS, containing the source of the air flow, is divided into two air ducts with outlets that face each other: Gu, are displaced relative to each other and have an ejector with a loading neck, above which a loading funnel is installed, kinematically connected lever a system with a valve turned over at the bifurcation duct and a hydraulic cylinder for its movement, characterized in that, in order to increase the width and uniformity of the spread of fertilizers, zhektor razdvaivayuschegos each end of the duct is formed as a multiple ejectors which are positioned at different angles of inclination to gorizontgshi in vertiksshno-transverse plane. (L С -4 СП О5 СО СП

Description

The invention relates to agricultural machinery, in particular to the working bodies of pneumatic fertilizer spreaders, which can be used for the surface spreading of fertilizers and pre-chemicals to the soil.

Pneumatic tuber spreader operating bodies are known, including a source of air flow, the split duct / branches of which are turned towards each other and the tips are narrowed to form ejecting nozzles. In the interval of the indicated nozzles, on the vertical axis, a rotary spraying nozzle is installed. The ejector socket with the hopper is installed;

The disadvantages of these working pneumatic fertilizer spreaders are the complexity of the design due to the presence of a rack and pinion gear for turning the socket, as well as the bulkiness of the spreading spreader system, which includes a diverging rotary nozzle with a rotary drum, at small angles of inclination to the horizon.

The closest in technical essence to the present invention is a working body of a pneumatic fertilizer spreader containing a source of air flow, splitting., From an air duct with outlet ends that face each other, are offset from each other and have an ejector with a charging neck,

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which is installed with a booster vrrka, kinematically connected lever system with a rotary valve installed in the place of bifurcation of the duct and with a hydraulic cylinder of its number 2.

The disadvantage of the known working body of the pneumatic fertilizer spreader is the insufficient width and uniformity of the fertilizer spreading, which are caused by the presence of only one ejector at each end of the duct, which is installed strictly at a given angle of inclination to the horizontal.

The purpose of the invention is to increase the width and uniformity of the spreading of fertilizers.

The goal is achieved by the fact that in the working body, the sector of each end of the forking duct is made up of several ejectors, which are located at different angles of inclination to the horizontal in a vertical transverse plane.

FIG. 1 shows a working body of a pneumatic spreader, top view} in FIG. 2 is a view A of FIG. IJ in FIG. 3 - working body side view. ; The working body of the pneumatic fertilizer spreader contains an air flow source in the form of a fan 1 (Fig. 1), the discharge cavity of which is connected to the left 2 and right 3 branches of the splitter 4. The ends of the branches 2 and 3 of the duct 4 are deployed in opposite ne each direction is connected with its pair of ejectors, the left branch is connected with ejectors 5 and .6, and the right branch of the duct is connected with ejector 7 and 8. Boot ports 9 and 10 of ejectors 5 and b on the left 2 duct branch, as well as boot necks 11 and 12 ezh The vectors on the right 3 duct branches are located on both sides of the longitudinal axis of the working body symmetrically to it. Moreover, the charging openings of the ejectors located on different branches of the duct, i.e. 9 and 11, as well as 10 and 12, are located along lines parallel to the longitudinal ocHjpa36pa-syvatel. :

Above the loading openings 9 and 11, as well as 10 and 12, the fit loading hoppers 13 and 14 are connected by a ball 15 and a single movable system held by sliders 1b and 17 in the guides 18 and 19. The moving hopper funnels 13 and 14 are connected to the moving system of hoppers 13 and 14 , a rod 20 of a hydraulic cylinder 21. In the place of bifurcation of an air duct, a rotary valve 22 is installed, which is connected with a movable system of hoppers 13 and 14 by means of a lever 23 and m, the goy 24 is hinged.

Ejectors 5 and b, located on the left branch 2 of the air duct, as well as ejectors 7 and 8, located on the right branch 3 of the air duct, are installed at different angles of inclination to the plane of the horizon (Fig. 1 and 2). Moreover, ejectors b and 7, which are located further along the direction of air movement in their branches x, are installed at a large angle to the plane of the horizon, and ejectors 5 and 8 are installed in a horizontal plane. Air is supplied to the ejectors 6 and 7, which have a greater angle of inclination to the horizon plane, by means of branch lines 25 and 26 (Fig. 2), making the transition that is most favorable for the hydrodynamic transition from branches 2 and 3 and ejector body 1M and 7 The air supply to the ejector 8, as well as to the ejector 5, which have a smaller inclination angle to the plane of the horizon, is carried out, as shown in FIG. 2 with pivotal knees on branch 2 and branch 3 and located in the longitudinal and transverse planes. Loading movable funnels 13 and 14 (Fig. 3) are installed under the unloading windows of one common or two separate longitudinal feeding conveyors 27, the front wall 28 of which is equipped with gate valves 29 The feeding conveyors 27 from the side of their unloading windows are equipped with a casing 30 and lashrooms 31, the proposed working body operates as follows. In accordance with the direction of fertilizer spreading, which is determined by the direction of wind movement relative to the direction of movement of the unit, the moving system 201 of the hydraulic cylinder 21 movable feed hoppers 13 and 14 (Figures 1 and 3) moves to such a position where their discharge openings are completely Compatible with feed ports 11 and 12 of ejectors 7 and 8 or with loading pots of 9 and 10 ejectors 5 and 6. For example, when spreading fertilizers on the left nd to the direction of the unit's movement, loading movable funnels 13 14 are aligned respectively with the feeding tube 11 and the ejector 7 and 12 B, arranged on a branch of the duct 3 (Fig. 1 and Fig. 3, solid lines). In parallel with this, the ha ha 24, kbtora is pivotally connected to the movable sietem of the hoppers 13 and 14, the lever 23 sets the valve 22 to the position where it will block branch 2 of the air duct. In this case, with the fan 1 running, air will flow through the duct branch 3 to ejectors 7 and 8.. When the supply of seeding material (mineral fertilizers of scientific research institutes) is switched on by the feeding conveyors 27 (Fig. 3), which are dispensed by the height of installation of the slide gates 29 on the wall 28, the scatter material from the conveyor 27 spills into the space between the casing 30 and the shields .31. Here, a material is formed into a narrowly directed stream, which, through movable feed funnels 13 and 14, wakes the feed ports 11 and 12 of ejectors 7 and 8 located below them. In these necks, the material is mixed with ejection by air flow, accelerated over the length of ejectors 7 and 8, is thrown out and scattered evenly over the surface of the field. Since the ejector 7 has a slightly larger angle of inclination to the horizon plane than the ejector 8, as well as due to more favorable conditions for supplying a powerful ejecting jet to the condition of air supply to the ejector 7 by branch 26 (Fig. 2) created by it the stream will be more distant. As a result, the fertilizers ejected by him will be dispersed by a strip farther from the spreader axis than the fertilizer sowing strip ejected by the ejector 8. Since the angles of inclination of the ejectors 7 and 8 are selected with respect to the sieving of the fertilizers created by them, and the acceleration of the material occurs only along the straight line without creating any resistance by the air-jet stream, the spreading width and uniformity of seeding increases. When sieving mineral fertilizers to the right of the and the unit, the position of the movable hoppers 13 and 14 together with the rotary valve 22 is changed. In this case, the rod 20 of the hydraulic cylinder 21, the hoppers 13 and 14 on the sliders 15 and 17 according to the pg equal to 1b and 19 (Fig. 1-3. ) shift to the full alignment of their discharge openings with loading ports 9 and 10 of ejectors 5 and b. At the same time, the CRAFT 24, which is a hinge-; but connected to the moving system from. movable hoppers 13 and 14, through the lever 23, the rotary valve-. Pan 22 is installed in a different position, which will overlap the branch 6 of the duct (Fig. 1 and Fig. 3 dashed lines). In such a position, the-; The stuffy flow from the fan 1 through the branch 2 duct will be fed into the ejecting nozzles of the ejectors 5 and b. At the same time, mineral fertilizers coming in from the transport conveyor 27, being overdosed by the gate valve 29 and formed by the casing 30 and the shields 31 into the narrow stream, are fed into the area of their intake by movable feed funnels 13 and 14, through which these fertilizers enter the loading necks 9 and 10 ejectors 5 and 6. Here they are tied off with air, accelerated along the length of ejectors 5 and 6 are thrown out and scattered j in a uniform layer over the field surface to the right of the axis of the unit. Since the air supply to the ejector b of the branch 25 is more favorable in hydrodynamic relation-. Research institutes for creating a powerful jet ejector than supplying air to ejector 5, and also because of the large angle of installation of ejector b than ejector 5. to the plane of the horizon, the sowing strip of fertilizers ejectors -1 b will be placed

Claims (1)

A WORKING BODY OF A PNEUMATIC FERTILIZER SPREADER, containing a source of air flow, a bifurcating duct with outlet ends that face each other, are offset from each other. - and have an ejector with a loading neck, over which a loading funnel is installed, kinematically connected by a lever system with a rotary valve installed at the bifurcation point of the duct and with a hydraulic cylinder for moving it, characterized in that, in order to increase the width and uniformity of the spreading of fertilizers, the ejector of each end of the forked the air duct is made in the form of several ejectors, which are located at different angles of inclination to the horizontal in the vertical ₍ vertical transverse plane. I with