SU923413A1 - Combination ploughshare - Google Patents

Description

(5) WORKING ORGAN OF THE PNEUMATIC SPREADER OF FERTILIZERS

  . one . The invention relates to agricultural machinery, in; in particular, to the working bodies of pneumatic fertilizer spreaders. A pneumatic distributor of a fertilizer spreader is known, containing a source of air flow, communicated with a splitter air cooler, in the gap of which there is a drum equipped with a turning mechanism with a fertilizer diffuser in the form of a socket with an ejector and a hopper 1. A disadvantage of the lime body of the pneumatic fertilizer spreader is the large perimeter of the drum and the connecting pipe associated with it, causing unproductive airflow energy meters in the event the integrity of the seal is disturbed in any part of the perimeter of these parts. In addition, the location of the pipeline of the diffuser in the horizontal plane and the possibility of violating the integrity of the seal of the drum and the connecting pipeline reduce the sowing distance of fertilizers. The purpose of the invention is to reduce unproductive energy losses of the air flow and increase the range of fertilizer sieving. This goal is achieved by the fact that the sleeves of a split duct are turned towards each other and are made in the form of ejecting nozzles, with the ejecting nozzles and the diffuser socket set at an angle to the horizontal plane. FIG. 1 shows a working body of a pneumatic fertilizer spreader, top view; in fig. 2 is a view A of FIG. 1. The working device includes an air flow source 1 connected to a split duct, the ends

the sleeves 2 and 3 of which are turned one against the other towards each other and narrowed, forming the ejecting nozzles i and 5. The nozzles and 5 are located at the same time at an angle to the plane of the horizon. Between them there is a rotary drum 6 containing a diffuser in the form of a bell 7 with an ejector, a loading neck 8 and a funnel 9, and in the working position the ejecting nozzles of the duct and the socket of the diffuser are coaxially and set at an angle to the horizontal plane. (. For turning, the drum 6 is equipped with a turning mechanism in the form of a rack and pinion gear 10 with a hydrach lindrom 11.

The working body works as follows.

During operation, the spreader, depending on the direction of spreading fertilizer, by means of a hydraulic cylinder 11 and a pinion gear 10, rotates the drum 6 to a position in which the longitudinal axis of the socket 7 becomes aligned with the ejector jet of one of the nozzles K or 5. which is created source 1 air flow. The second nozzle is at this time compacted by the wall of the drum 6.

At the same time, mineral fertilizers are metered into the feed hopper 9 from the hopper via a feeder (not shown). From the charging hopper 9, the mineral fertilizers enter the charging neck 8 of the bell 7 in which they mix with the air stream, accelerate the last ejector on the length of the socket 7 of the ejector, are thrown out of it and scattered over the surface of the floor. During the backward passage of the spreader, the drum 6 through the gear train 10 is turned by a hydraulic cylinder 11 until the ejector socket 7 is connected to the opposite nozzle k or 5 and the process is repeated.

The proposed organ, in which the ejection nozzles are made separately from the bell ejector, allows a significant reduction in the compressed perimeter of the spout pneumatic conveying system. Since the separation of the indicated elements of the ejector

made along the narrowest section of the ejecting nozzles, the sealing perimeter is reduced as by reducing the length of the perimeter

each hole to be sealed, and by reducing the number of these holes.

In this case there are only three sealed holes, namely:

two holes of ejecting nozzles and one hole of the entrance to the ejector socket A

Arrangement in working position of ejecting nozzles 4 and 5 and ejector

the spreader socket coaxially with each other and at an angle to the horizontal plane provides an increase in the distance of sowing of fertilizers.

These advantages of the proposed tool provide, in comparison with the known, an increase in the spreading width by 28% with the same energy consumption for spreading fertilizers, as well as significantly increasing the spreading distance of fertilizers and the reliability of the device as a whole.

Fermula Invention

A pneumatic fertilizer spreader working body containing an air flow source communicated with a split duct, in the gap of the sleeves of which a drum equipped with a turning mechanism with a fertilizer diffuser in the form of a socket with an ejector and a funnel is placed, characterized in that, in order to reduce unproductive energy losses of the air flow and increasing the sowing range of fertilizers, the sleeves of the forking duct are turned towards each other and are designed as ejecting , Wherein the ejecting nozzle and the horn diffuser mounted at an angle to the horizontal plane.

Sources of information taken into account in the examination

1. USSR author's certificate No. 509251, cl. A 01 C 15/0, 197 (prototype).

Claims (1)

30 <Claims i The working body of the pneumatic fertilizer spreader containing a source of air flow communicated with a bifurcated air duct, in the gap of the sleeves of which there is a drum equipped with a swing mechanism with a fertilizer diffuser in the form of a bell with an ejector and a loading funnel, characterized in that, in order to reduce unproductive losses energy of the air flow and increase the range of fertilizer sifting, the sleeves of the bifurcating duct are deployed against each other and are made in the form of ejecting pl, moreover, the ejection nozzles and the bell of the diffuser are installed at an angle to the horizontal plane. Sources of information taken into account during the examination 1. USSR Copyright Certificate No. 509251, cl. A 01 C 15/04, 1974 (prototype). sleeves 2 and 3 of which are turned one against the other towards each other and are narrowed, forming ejecting nozzles 4 and 5 · Nozzles 4 and 5 are located at an angle to the plane. '5 horizon. A rotary drum 6 is installed between them, containing a diffuser in the form of a bell 7 with an ejector, a loading neck 8 and a funnel 9 ”, and in the working position, the ejector nozzles of the air duct and the diffuser bell are aligned and installed at an angle to the horizontal plane, ι, To rotate the drum 6 equipped with a turning mechanism in the form of a rack gear 10 with a hydraulic cylinder 11. The working body works as follows. During the operation of the spreader, depending on the direction of spreading the fertilizers, with the help of the hydraulic cylinder 11 and the rack gear 10, the drum 6 is rotated to a position where the longitudinal axis of the bell 7 will be in line with the ejection jet of one of the nozzles 4 or 5, which is created source of 1 air stream. The second nozzle at this time is sealed by the wall of the drum 6. At the same time, mineral fertilizers are metered into the loading funnel 9 from the hopper through a feeder (not shown). Mineral fertilizers from the loading funnel 9 enter the loading neck 8 of the socket 7, in which they are mixed with an air stream, dispersed last along the length of the ejector socket 7, are ejected from it and scattered across the field surface. With the backward passage of the spreader, the drum 6 through the gear 10 of the hydraulic cylinder 11 is rotated 180 ^e until the ejector socket 7 is connected to the opposite nozzle 4 or 5 and the process is repeated. The proposed body, in which the ejection nozzles are made separately from the ejector of the socket, can significantly reduce the sealed perimeter of the pneumatic transport system of the spreader. Since the separation of these elements of the ejector