RU2828848C1 - Working member for intrasoil application of liquid fertilizers - Google Patents

Abstract

FIELD: agricultural machinery.

SUBSTANCE: invention relates to agricultural equipment, in particular to devices for intrasoil application of liquid fertilizers. In a working member for intrasoil application of liquid fertilizers, comprising a liquid fertilizer applicator configured to be connected to a liquid fertilizer delivery hydraulic system, and a soil loosening device, according to the invention, inside the frame structure of the soil loosening device, which consists of vertical blades connected by horizontal connecting elements, there is a liquid fertilizer application device rigidly attached to it, which is made in the form of a hollow cylinder containing multiple through holes distributed along its side walls.

EFFECT: invention increases the possibility of distributing liquid fertilizer throughout the ploughed layer.

1 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to devices for the subsurface application of liquid fertilizers.

According to patent RU 2552900, a combined tool for cultivating potatoes is known, including a plow body with a shortened moldboard, fixed to a frame, and a driven vertical rotor with a sleeve located behind it, in the lower part of which the working parts of the first tier - lifting blades - are located along a multi-start helical line; in the middle part the working bodies of the second tier are fixed - crushing elements made in the form of loosening fingers, in the upper part of the bushing the working bodies of the third tier are installed in the form of plates, characterized in that a support disk is rigidly attached to the upper part of the bushing, the second tier consists of loosening fingers, including bearing rods rigidly fixed to the lower surface of the support disk with removable working bodies fixed to them, wherein the part of the rod fixed to the disk is not less than 1/4 of its length, the third tier is located above the bushing and the support disk, consists of inclined beater bars rigidly fixed at an angle to the vertical axis of the rotor, wherein their lower ends are fixed to the lower part of the bushing, the middle part - to the bearing rods, and the upper ends are connected to each other by a ring. The working bodies on the bearing rods are made in the form of wedge-shaped prisms or cutting knives.

The disadvantage of the known working body is the lack of the ability to apply liquid fertilizers to the soil when using it.

According to patent RU 208522, a working element for the subsurface application of liquid organic fertilizers is known, comprising a stand with an internal channel for supplying fertilizers and a soil expander, characterized in that the soil expander is made in the form of a drainer rigidly attached to the lower part of the stand, has a cavity in the form of part of a vertical semicircle on the side opposite to the direction of movement, connected to the channel for supplying fertilizers, and behind the drainer there is a bladed loosening-mixing rotor, consisting of a horizontal axis, a drum and segmented blades bent in the direction of rotation, the rotor axis is fastened in the bushings of flat rods welded to the sides of the drainer at such a height that the lower points of the trajectories of the blades are below the lower point of the drainer body.

The disadvantage of the known working body is the complexity of the design.

The closest to the claimed technical solution is the working element of a rotary injector cultivator known from patent RU 178506, which includes a rotor with knives, a drive shaft with a working fluid inlet unit, whereby the working fluid is supplied under pressure through a nipple and a hollow shaft into the plane of rotation of the knives, whereby the knives act as a cultivator paw with a feeding tube.

The disadvantage of the known working element is the lack of the ability to distribute liquid fertilizer throughout the entire volume of the arable layer; with the help of the known working element, fertilizers are applied only in a strip manner with distribution in one lower horizontal plane of the arable layer, since the channels for the outlet of liquid fertilizer are located inside the cultivator knives, and the openings for the outlet of liquid fertilizer are located at their ends.

The technical result of the claimed invention is the possibility of distributing liquid fertilizer throughout the entire volume of the arable layer.

The technical result is achieved in that in the working element for the subsurface application of liquid fertilizers, containing a means for applying liquid fertilizers, made with the possibility of connection to a hydraulic system for delivering liquid fertilizers, and a means for loosening the soil, according to the invention, inside the frame structure of the means for loosening the soil, consisting of vertical knives connected by horizontal connecting elements, a means for applying liquid fertilizers is located rigidly attached to it, made in the form of a hollow cylinder containing a plurality of through holes distributed along its side walls.

The lower connecting element of the frame structure of the soil loosening device is made in the form of a horizontal cutter, or a horizontal cutter is attached to the lower connecting element of the frame structure of the soil loosening device.

In front of each hole in the hollow cylinder there is a bumper, which protects these holes from becoming clogged with soil particles.

The liquid fertilizer application device is installed along the central vertical axis of the frame structure of the soil loosening device.

Inside the hollow cylinder, vertical or diagonal blades are attached to its walls or to its upper and lower covers.

The design of the liquid fertilizer application device in the form of a hollow cylinder containing a plurality of through holes distributed along its side walls allows distributing the fertilizer throughout the entire volume of the arable layer, to the entire plowing depth and deepening of the working element into the soil. The liquid fertilizer is sprayed from the cylinder through the holes due to the action of centrifugal forces arising during rotation of the working element, and the presence of vertical knives allows loosening the soil throughout the entire volume around the liquid fertilizer application device, while the degree of soil loosening is sufficient to introduce liquid into it throughout the entire volume, both inside the frame and within the radius of action of the vertical knives due to the centrifugal forces arising inside the hollow cylinder, while there is no need to use a pump.

The presence of vertical or diagonal blades inside the liquid application device allows to give the liquid that has entered this device an additional rotation impulse, which allows to evenly distribute the liquid inside the hollow cylinder and increase the liquid pressure in the hole area. At the same time, the rotation speed of the working element allows to perform the function of liquid fertilizer application without these blades.

The presence of bumpers in front of each hole in the hollow cylinder protects the holes from clogging by changing the direction of the soil particles encountered and diverting them away from the holes in the cylinder. The bumpers can be made in the form of projections of any shape and, for example, made with a gradual increase in distance from the center of rotation against its direction.

The implementation of the lower element of the frame structure of the soil loosening device in the form of a horizontal cutter or the installation of a horizontal cutter on the lower ring of the frame structure allows increasing the speed of deepening the device into the soil and avoiding its damage during deepening.

At the same time, the device remains operational and capable of performing its functions even without the additions specified in the dependent claims of the formula.

The applicant has conducted tests of a prototype of the claimed invention:

For the tests, they used part of the factory's experimental field plot, where potatoes were planted last year.

The tractor "Uralets 250" was used as a tractor. The claimed device was used as a working element.

The plot size is 100x20 m.

Agrochemical analysis of the content of mobile forms of nitrogen, phosphorus and potassium before testing (250 mm layer) showed:

NO3: 16 mg/kg.

P2O5: 129 mg/kg.

K2O: 134 mg/kg.

For planting potatoes, the optimal amount of these elements in the soil should be:

NO3: 60 mg/kg.

P2O5: 150 mg/kg.

K2O: 200 mg/kg.

To replenish these elements in the soil, the following fertilizers were used: urea, potassium chloride and amphoska. All these fertilizers dissolve well in water.

Calculation of the amount of fertilizers showed that for 20 acres we need:

28.8 kg. Amofoska

62.6 kg. Urea

93.1 kg. Potassium chloride

Each was dissolved at a temperature of 26 degrees in a separate container, then poured into a single container. The fertilizer solution was loaded into the system for application to the soil in a mixed form.

The capacity of the system for supplying liquid 200 l. per 20 acres was filled with the prepared solution completely 3 times, since the content of mobile nitrogen in the soil was very low, and also for the optimal amount of potassium for planting potatoes in the soil, it was necessary to add a significant amount of potassium chloride to the soil.

Test result:

The measurements were taken two days after plowing with subsoil application of fertilizers. During the above-mentioned period of time, the weather was sunny, there was a light rain, the average night temperature was 10-12 degrees, and the daytime temperature rose to 25-27 degrees.

After plowing the experimental plot with subsoil application of liquid fertilizer, agrochemical analysis showed the following result (on average for the plot):

NO3: 57 mg/kg.

P2O5: 147 mg/kg.

K2O: 194 mg/kg.

The unevenness of the saturation of elements across the entire area of the experimental plot after the experiment was 3-5%, which corresponds to the uneven distribution of these elements in the soil before the experiment.

The slightly lower than expected optimal results of the quantities of these elements may be due to incomplete dissolution of fertilizers, errors in calculations, measurements of the amount of fertilizers, and the amount of water for complete dissolution of these fertilizers.

The essence of the claimed invention is explained by drawings.

Fig. 1 schematically shows the general appearance of the working element for the subsoil application of liquid fertilizers with a cutter installed on the lower ring.

Fig. 2 schematically shows the general appearance of the working element for the subsoil application of liquid fertilizers with a cutter, which is the lower element of the frame with knives attached directly to it.

Fig. 3 schematically shows the general appearance of the working element for the subsoil application of liquid fertilizers with a lower frame element in the form of a ring.

For convenience, identical elements are designated by identical positions on the general view drawing. The method of connection to the hydraulic system can be any and is not shown on the drawing.

The working element for the subsoil application of liquid fertilizers contains a frame consisting of vertical knives 1, connected in the upper part by welding to a large connecting element 2, in the middle and lower part by welding to connecting elements of a smaller diameter 3, 4 or to a horizontal cutter 5, inside the frame along its central axis a hollow cylinder 6 with holes 7 and blades (not shown in the drawing) inside the cylinder 6 is fixed.

In this case, the hollow cylinder is attached to the connecting elements 3, 4, or to the horizontal milling cutter 5, or to the lower small ring 4 with the horizontal milling cutter 5, mainly by means of bolts, or welded to them, or attached in any other way suitable for this. The openings 7 on the hollow cylinder 6 can be placed in vertical or diagonal rows or in a checkerboard pattern. All elements of the design of the working element are rigidly connected to each other.

All design elements of the working element are rigidly connected to each other. The working element for subsurface application of liquid fertilizers is mounted on a shaft kinematically connected to the tractor power take-off shaft. In this case, liquid fertilizer from a container mounted on the frame is fed through a nozzle, a filtration system and sleeves to the working fluid inlet unit mounted on the shaft and equipped with sealing elements, then through the openings the liquid enters the central cavity of the shaft and flows into a hollow cylinder, from where, under the action of centrifugal forces that arise due to the blades rotating together with the cylinder and installed inside it, it is sprayed through the openings during plowing. The hollow cylinder is made closed at the top and bottom.

Depending on the soil condition, the required rotation speed of the working element is from 300 to 400 rpm.

The blades of the knives and cutters are made of high-manganese wear-resistant steel under conditions of abrasive friction. The minimum number of vertical knives is three, preferably four, but for complex soils their number can be increased.

The liquid fertilizer application device must have good sealing preventing air suction so that the liquid flows into the working element not only by gravity due to different levels of the working element and the reservoir relative to the ground, but also due to the vacuum in the working element itself (when liquid is consumed under the action of centrifugal forces), which creates an additional suction of liquid from the reservoir, and there is no need to use a pump. Good sealing is necessary for complete filling of the working element cylinder with liquid fertilizer in conditions of the need to regulate its quantity by partially blocking and reducing the flow of liquid into the working element when it is operating at constant speed and uniform distribution of fertilizer throughout the arable layer.

Claims (6)

1. A working element for the subsurface application of liquid fertilizers, comprising a means for applying liquid fertilizers, designed with the possibility of being connected to a hydraulic system for delivering liquid fertilizers, and a means for loosening the soil, characterized in that inside the frame structure of the means for loosening the soil, consisting of vertical knives connected by horizontal connecting elements, there is a means for applying liquid fertilizers, rigidly attached to it, made in the form of a hollow cylinder containing a plurality of through holes distributed along its side walls. 2. A working element for the subsurface application of liquid fertilizers according to paragraph 1, characterized in that the lower connecting element of the frame structure of the soil loosening means is made in the form of a horizontal cutter. 3. A working element for the subsurface application of liquid fertilizers according to paragraph 1, characterized in that a horizontal cutter is attached to the lower connecting element of the frame structure of the soil loosening means. 4. A working element for the subsurface application of liquid fertilizers according to paragraph 1, characterized in that a baffle is provided in front of each opening of the hollow cylinder, protecting these openings from becoming clogged with soil particles. 5. A working element for the subsurface application of liquid fertilizers according to paragraph 1, characterized in that the means for applying liquid fertilizers is installed along the central vertical axis of the frame structure of the soil loosening means. 6. A working element for the subsurface application of liquid fertilizers according to paragraph 1, characterized in that vertical or diagonal blades are made inside the hollow cylinder and attached to its walls or to its upper and lower covers.