RU166206U1 - MINERAL FERTILIZER SPREADER HYDRAULIC - Google Patents

Abstract

1. The hinged spreader of mineral fertilizers aggregated with a tractor of draft class 1.4-2 tp according to a three-point scheme and containing on the frame a feed hopper with a safety grill, an adjustable fertilizer rate meter per hectare, a fertilizer diffuser, a device for actuating a diffuser and a metering device, characterized in that the diffuser is made in the form of a rotor mounted on a common shaft, containing the upper and lower disks, between which an impeller is mounted, made in the form of a glass having symmetrically located through windows in the wall for feeding the spreading material to the spreading vanes and, and the impeller, rotating on a shaft in a ball bearing, together with the disks and vanes from the hydraulic motor through a V-belt drive, is enclosed in a fixed casing with an outlet window through which metered fertilizers from the rotating impeller through its windows, are gradually accelerated by centrifugal force, are directed to the lower disk of the rotor, and the rotor blades, which are adjustable in speed of rotation, scatter fan-shaped on the surface of the field, while the number of spreading blades corresponds to the number of windows and mpeller, and the side wall of the window opening of the impeller and the side surface of the blade make up a single path, and the side working surface of the rotor blades is made according to involute. 2. The hinged spreader of mineral fertilizers according to claim 1, characterized in that the dispensing of fertilizers for spreading occurs using a gate feeder with a hydromechanical variator.

Description

The utility model relates to machines for mechanization of agrochemical servicing of agriculture and is intended for the surface application of solid mineral fertilizers in granular and crystalline form, followed by their termination with tillage implements, as well as for feeding grain and row crops, meadows and pastures. It can be used for late fertilizer application, when the height of the plants is 30 cm or more, it can be used for sowing green crops, as well as in public utilities for sanding roads. It is aggregated with tractors of draft class 1.4-2 t.p. (T 40; MTZ 80/82; YuMZ-6 l).

The closest in technical essence is a single-disk spreader of mineral fertilizers (a.s. No. 2343678 dated January 20, 2009) aggregated with a tractor and containing a hopper with a safety grill and metering holes, as well as a mixing device and a drive from the tractor PTO . In this case, the hopper with metering holes in the bottom is placed on the frame; As a mixing device, a tedder is used, made in the form of four curved tedders, symmetrically located on the eccentric with the help of a sleeve, and the metering holes are made with the possibility of regulating their size using the hopper bottom flaps, adjustable through the link with the lever, and the drive from the tractor power take-off shaft by attaching the agitator diffuser to the gear shaft using pins. The drive mechanism consists of a single-stage bevel gear and a telescopic driveshaft.

The disadvantages of this analogue are: 1) the lack of precise adjustment of the application rate depending on the speed of the tractor, since the regulation of the metering flaps of the bottom of the hopper does not have a kinematic connection providing adjustment proportionally to the actual speed of the tractor. As a result, there is an increase or decrease in the dose of application, which leads to a decrease in crop yields and a negative impact on the environment;

2) The agitator, made in the form of four curved agitators, with the corresponding rotations of the diffuser gear, destroys the fertilizer granules and thereby reduces their quality;

3) The lack of adjustment of the speed of rotation of the scattering disk makes it difficult or impossible to fertilize at the borders, edges, wedges of sowing lands and in gardens;

4) The chaotic entry of fertilizers through the metering flaps on the bottom of the diffuser does not provide uniform distribution in a fan-shaped flow with four blade diffusers;

5) The rectilinear surface of the spreading vanes during the rotation of the diffuser involves the destruction of granules, a decrease in the speed of departure of fertilizers and increased wear of the vanes themselves.

The objective of the proposed utility model is to increase the operational reliability of the spreader, increase the accuracy of adjusting the dose of applying mineral fertilizers, prevent the destruction of granules, improve the ability to fertilize, ensure a more even distribution of fertilizers across the field, and reduce wear on the diffuser blades.

As a result of using the proposed utility model of mineral fertilizer spreaders of an innovative development, the following became possible: improved adjustment of the fertilizer application rate depending on the tractor speed, stepless hydraulic control of the rotational speed of the diffuser to switch from the maximum fertilizer spreading mode to the distribution mode at the borders of the land at the rotational speed of the diffuser 5 -10 rpm and emptying the feed hopper at low speed of the diffuser.

In addition, there is no need to have replaceable expensive spreading discs of different diameters to change the spreading speed, the presence of which takes place in existing analogues.

The special design of the utility model diffuser blades allows you to increase the fertilizer spreading range and reduce the wear of the diffuser blades, all other things being equal.

The above technical result is achieved by the fact that in the mounted mineral fertilizer spreader it is aggregated with a tractor of draft class 1.4-2 tp according to a three-point scheme and containing on the frame a feed hopper with a safety grill, an adjustable fertilizer rate meter per hectare, a fertilizer diffuser, a device for actuating the diffuser and a metering unit, the diffuser is made in the form of a rotor mounted on a common shaft containing upper and lower disks, between which an impeller is installed, made in the form of a glass having symmetrically located through windows in the wall for feeding the spreading material to the spreading vanes, and the impeller, rotating It is mounted on a shaft in a ball-bearing support, together with disks and vanes from the hydraulic motor through a V-belt drive, and is enclosed in a fixed casing with an outlet window through which fertilizers and through symmetric windows in the impeller wall, smoothly accelerating under the action of centrifugal force, are sent to the lower rotor disk, and the blades of the rotor, which is adjustable in speed of rotation, are scattered fan-shaped along the surface of the field, while the number of blades corresponds to the number of windows of the impeller, and the side wall of the window opening imp the blade and the lateral surface of the blades form a single path, and the lateral working part of the blades is made according to an involute. Dosing of fertilizers for spreading takes place using a gate feeder with a hydro-mechanical variator.

The essence of the proposed utility model is illustrated in FIG. 1, FIG. 2, FIG. 3, FIG. 4, FIG. 5, FIG. 6.

In FIG. 1 shows a general diagram of a utility model of a spreader - rear view; in FIG. 2 shows a section "aa" of figure 1; in FIG. 3 shows a horizontal section "BB" of the diffuser rotor; in FIG. 4 shows a section BB of the gateway feeder-dispenser 6 of FIG. 2.

In FIG. 1 shows the frame 1, the feed hopper 2, the safety grill 3, the ears 4 and the fingers 5 for attaching the spreader to the tractor.

In FIG. 2 shows a lock feeder-dispenser 6 with a hydromechanical variator 7 and estrus 8; upper 9 and lower 10 discs of the rotor of the diffuser of fertilizer granules; spreading vanes 11. An impeller 12 is installed on the lower rotor disk 10, and a circular casing 13 with a discharge window 20 is installed on the base plate 14 (Fig. 3).

The rotor, with its disks 9 and 10, scattering blades 11, an impeller 12, a shaft 15, is installed in the bearing support 16, and through a V-belt drive 17 is driven by a hydraulic motor 18 from the tractor hydraulic system. V-belt transmission contains a tension device 19.

In FIG. 3 shows a section “BB” of FIG. 2, where the window 20 of the casing 13 is shown on the remote element I, and the windows 21 are shown in the impeller 12.

In FIG. 4 shows a section BB of the feeder of FIG. 2 with a metering rotor 22 rotating from a hydro-mechanical variator 7.

In FIG. 5 shows a casing 13 phi. 2 with a discharge window 20 and two grooves made along the radius. Figure 6 shows the principal hydraulic circuit of the diffuser drives operating from the tractor hydraulic system. Oil from the hydraulic system through a flow divider 23 enters the pressure lines "P" of the hydrodistributors 24 and 25 with hydroelectric control. Both directional valves on the T drain line have fluid flow controllers 26 and 29.

In the initial position with the electromagnets off, the control valves 24 and 25 along the pressure lines “P” direct the oil from the tractor’s nass to the drain, into the tractor’s hydraulic tank.

When the electrodistributors 24 and 25 (Fig. 6) are turned on, the rotor installed in the bearing support 16 is rotated by the hydraulic motor 18 through the V-belt transmission (Fig. 2) with the disks 9 and 10 related to it, the scattering blades 11, the impeller 12 and the shaft 15, and also, the cellular rotor 22 (Fig. 4) of the gate feeder-dispenser 6 from the hydromechanical variator 7. In this case, the material supplied by the gate feeder 6 from the feed hopper 2 is directed through estrus 8 to the impeller 12, where it rotates with the impeller 12 until a certain time, discs 9 and 10, working blades 11. Limited by the periphery of the casing 13, the material rotates at the moment of coincidence of the windows 21 of the impeller 12 and the window 20 of the casing 13 under the influence of centrifugal force and falls on the lower disk 10 and under the blades 11, with the help of which the bulk cargo is communicated kinematic energy necessary for directing it to a predetermined distance. The perimeter of the window 20 of the casing 13 is located vertically and at an angle of 90 ° ρ 5 ° with respect to the race of movement of the tractor.

The rotational speed of the scattering rotor, and therefore the spreading range of the fertilizer, is determined by the fluid flow regulator 26 (Fig. 6). Oil from the tractor hydraulic system through the flow divider 23 enters the pressure line "P" of the control valve 24 when it is turned on, it drives the hydraulic motor 18, and it, in turn, spreads the rotor. Used oil through the drain line "T" of the distributor 24 and the fluid flow regulator 26 goes into the tank of the tractor pump station.

Gateway feeder 6 has a two-stage adjustment of the dosage of the spread of material per hectare.

Oil (Fig. 6) from the tractor hydraulic system through a flow divider 23 enters the pressure line “P” of the valve 25. Through oil connected with the valve 24, 25 it supplies oil to the hydromechanical variator 7, consisting of a hydraulic motor 27 and a gearbox 28. Adjustment of the dose of material the gateway feeder 6 is carried out by the flow rate regulator 29 installed on the drain line "T" of the valve 25.

The two-stage variator of the lock feeder allows for a wide range and accuracy of fertilizer dosing in the range, for example, from 40 ... 300 kg / ha.

The regulators of the flow of the working fluid 26 and 29 (Fig. 6) support the corresponding value of the flow rate, regardless of the differential pressure in the input and output flows of the working fluid.

The rotational speed of the hydraulic motors of the spreading rotor and the lock gate is determined by the tachometer, and is assigned depending on the speed of the tractor, the spreading distance of the fertilizer and the rate of fertilizer application per hectare in accordance with pre-compiled tables.

The material emission range is practically determined taking into account the volumetric weight of fertilizers (t / m ³ ) and the scale indicators (vernier) of the working fluid flow rate regulator are recorded in the table of the operating manual, and the capacity of the gateway metering device in kg / min is also determined depending on the volumetric weight of fertilizers .

For example, having determined visually or with instruments the distance to the edge of the field to be treated, the rotation frequency of the gateway dispenser is calculated. So at a tractor speed of 10 km / h, or 167 m / min, the path covered by it at a spreading distance of 5 m to the edge of the field is 10,000 m ² : 5 m is 2,000 m, where 10,000 m ² is 1 ha. At a speed of 167 m / min, this path is covered by the spreader in 12 minutes (2000: 167).

During this time, the airlock meter should give a fertilizer application rate per hectare, for example, 50 kg / ha, and if the airlock meter has a productivity of, for example, 0.5 kg per 1 vol., The metering device should make (50: 0.5) 100 rpm 12 min., Or 8.3 rpm. At this speed and adjust the gateway dispenser using a tachometer by means of a flow rate controller 29 (Fig. 6).

Thus, at a rotational speed of the metering rotor of 8.3 rpm, for 12 min the cultivated area of 1 ha 5 m 2000 m with a metering rotor productivity of 0.5 kg / r, the fertilizer application rate of 49.8 kg / ha is 8.3 12 0.5.

The spreader can operate in manual automatic mode.

Claims (2)

1. The hinged spreader of mineral fertilizers aggregated with a tractor of draft class 1.4-2 tp according to a three-point scheme and containing on the frame a feed hopper with a safety grill, an adjustable fertilizer rate meter per hectare, a fertilizer diffuser, a device for actuating a diffuser and a metering device, characterized in that the diffuser is made in the form of a rotor mounted on a common shaft, containing the upper and lower disks, between which an impeller is mounted, made in the form of a glass having symmetrically located through windows in the wall for feeding the spreading material to the spreading vanes and, and the impeller, rotating on a shaft in a ball bearing, together with the disks and vanes from the hydraulic motor through a V-belt drive, is enclosed in a fixed casing with an outlet window through which metered fertilizers from the rotating impeller through its windows, are gradually accelerated by centrifugal force, are directed to the lower disk of the rotor, and the rotor blades, which are adjustable in speed of rotation, scatter fan-shaped on the surface of the field, while the number of spreading blades corresponds to the number of windows and mpeller, and the side wall of the window opening of the impeller and the side surface of the blades make up a single path, and the lateral working surface of the rotor blades is made according to involute. 2. A mounted spreader of mineral fertilizers according to claim 1, characterized in that the dispensing of fertilizers for spreading is carried out using a gate feeder with a hydromechanical variator.

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