RU188017U1 - COMBINED GRID FORMER FERTILIZER - Google Patents

Abstract

The utility model relates to agriculture - in particular, to technical means for growing potatoes on ridges formed from ridges with planted potatoes.

The essence of the utility model is that, at the minimum cost of re-equipping a combined fertilizer ridge formers based on serial technology, which allows for one-row row formation from two ridges with simultaneous local application of a full dose when loosening the row spacing of ridges with planted potatoes by a pair easily digestible liquid fertilizers distributed evenly, volumetricly in the root-inhabited layer of ridges and around planted tubers, when using 4 rows x machines, using a KFK-2.8 milling cultivator as a base machine with lancet paws in front of the milling cutters, with a bed plow-mixer, supplemented with a liquid fertilizer tank and an aerosol fertilizer supply unit, they will equip the lancet paws at the rear of the racks with feeding tubes for applying liquid complex fertilizers in the process of forming ridges, and the lancet paws behind the racks are equipped with feeding tubes for applying liquid complex fertilizers in the form of a liquid-air mixture from a centralized about the mixer distributor.

Description

The utility model relates to agriculture - in particular, to technical means for growing potatoes on ridges formed from ridges with planted potatoes.

Known technical means (shapers) that form a tuber-bearing layer when cultivating potatoes on ridges in Canada, the USA, Great Britain and other countries (See Yu.L. Kolchinsky, L.M. Kolchina. Experience of using foreign technologies for cultivating potatoes in Russia. M ., Informgrotech 1997, 44 c), which form a sufficiently large row spacing for the passage of tractor wheels when caring for planting and harvesting.

The advantages of the technology of cultivating potatoes on ridges are the elimination of compaction of the tuber-bearing layer (KNS) with the wheels of tractors and other machines during planting processing, increased moisture retention in dry weather due to the large volume of soil in the nest area, the exclusion of KNS overmoistening due to the high location of the nests relative to the bottom furrows, a decrease in the degree of greening of tubers, with a decrease in the total cost of labor and an increase in yield (see B. L. Okhotnikov. Production conditions and technical equipment increased profitability of potato cultivation. Ekaterinburg, 2002, Ural State Agricultural Academy, 136 s).

The well-known "Method of forming a tuber-bearing layer during the cultivation of potatoes", including preparing the soil before planting, forming ridges after 70 cm, planting tubers in ridges with strip arrangement of rows of uterine tubers and forming a ridge of two ridges simultaneously with intensive inter-row processing of the tuber-bearing layer, after which planting tubers in the ridges is the local application of a full dose of fertilizer in the planting rows, alternating through two ridges - in the middle of the formed ridge, the height of which Witzlaus height of the ridges, with provision for further extension of the ridge height of the vegetation period (see. RF patent №2316944, A01G 1/00, publ. 20.02.2008 Bull. №5)

Some of the disadvantages of the method is the introduction of a full dose of difficult to assimilate dry mineral fertilizers in the center of the ridge between two ridges below the tubers during the formation of ridges, which can create foci of increased concentration of mineral fertilizers, violating agrotechnical requirements, where it is recommended: “Place potato tubers on the soil layer mixed with mineral fertilizers "(See Agronomical notebook. Potato cultivation by intensive technologies. / Ed. By B. F. Khlevny. - M. Rosselkhozizdat, 1986, p. 54).

The objective of the utility model is to develop, at a minimum cost, the conversion of a combined ridger-fertilizer on the basis of serial technology that allows, in one pass, when loosening the rows of rows of ridges with planted potatoes by their counter-biasing, to form one row of two ridges while simultaneously applying a full dose of easily digestible liquid mineral fertilizers distributed evenly, voluminously in the root-inhabited layer of ridges and around planted tubers, when using 4 rows GOVERNMENTAL machines.

The problem is solved by using a KFK-2.8 milling comb forger with a lancet paws in front of the milling cutter, a bed former after milling cutters, supplemented with a liquid fertilizer tank and an aerosol fertilizer supply unit, to equip the lancet paws at the back of the racks with feeding tubes for introducing complex liquid fertilizers in the process of forming ridges, and the lancet paws behind the racks are equipped with fertilizer tubes for applying liquid complex fertilizers in the form of liquid-air mixtures from a centralized mixer-distributor mounted on the frame in the aerosol application unit and having one dosing liquid nozzle and a centralized supply of forced air from the compressor-air blower installed on the frame in the aerosol application unit, while working with five pointed arms on the side legs, top dressing the tubes have bends to the center of the passage of the bed forming machine and guide the introduced liquid-air mixture under one inner wing of the paw, and the feeding tubes of the three center of the paws direct the flow of fertilizers in the form of a liquid-air mixture under both wings of the central paws, while the feeding tubes under the feet end with tips in the form of nozzles with a diameter of 4-8 mm, and the centralized mixer-distributor has the number of taps in the number of feeding pipes of the feet and connects to feeding tubes behind lancet legs with flexible plastic tubes with quick-release fasteners, and the amount of air supplied to the centralized mixer-distributor is controlled by a change the rotational speed of the air blower, while the rotary vacuum pump of the RVN-40/350 or UVU 60/45 type used previously on the RZhU-3,6 slurry spreaders and in milking machines is used as an air blower compressor (see Doganovsky M.G., Kozlovsky E.V. fertilizing mechanization. Ed. 2nd, rev. and add. L., "The Ear", 1976, pp. 112-114; Unified vacuum installations UVU 60/45 - UVA passport 00.000-PS Fourth edition, 1978, Kurgansselmash plant). The lancet paws use a working width of 270-330 mm.

In FIG. 1 is a side view (left) of a combined fertilizer-forming bed system.

In FIG. 2 is a plan view of a combined fertilizer ridge former.

In FIG. Figure 3 shows the fastening schemes of feeding tubes with outlet nozzles on the legs of lancet paws. In FIG. 3a - on the side legs. In FIG. 3b - on the central paws, where a - with the left and right spray torch, b - with two feeding tubes (central paws).

In FIG. 4 presents drawings (photos) of experimental working bodies with feeding tubes. 4a - extreme paws, 4b - central paws.

Fertilizer Plotter FIG. one; FIG. 2 includes:

1. Cultivator comb milling machine with a bed former.

2. Pump with remote control.

3. Fertilizer tank (on the frame of a milling cultivator or on a tractor according to the POM-630 type).

4. Centralized multi-threaded mixer-distributor (device for dispensing and even distribution of liquids introduced into the mixture with gases in the soil).

5. Air blower.

6. Air distributor.

7. Flexible tubes for supplying a liquid-air mixture to the feeding tubes of the working bodies.

8. Feeding tubes of lancet paws.

The feeding tubes 8 of the lancet paws 9 (Fig. 3; 4) are fixed on the uprights 10 with the help of clamps 11 and the pads 12, fixed by the elongated bolts securing the trellised paws 9 to the uprights 10. During operation, when driving in rows, the tractor driver lowers the fertilizer to the working position, It includes a PTO and a control panel with a pump 2 from the tank 3 sets the fertilizer consumption according to the calibration carried out earlier. At the same time, the air blower 5 through the air distributor 6 into the centralized mixer-distributor 4 delivers air, mixing with the housing and communal services from the pump 2 and the resulting liquid-air mixture through flexible tubes 7 is fed into the feeding tubes 8 lancet paws 9, mounted on racks 10, clamps 11, s linings 12 and is applied under the soil layer around the potato tubers in the formed ridges.

Combined ridger-fertilizer provides the introduction of liquid complex fertilizers under the pointed arms according to the method of applying concentrated liquid to the soil according to A.S. No. 1702914 А01С 21/00. Publ. 01/07/1992. Bull. No. 1, which is a development of the “Unit for introducing into the soil a mixture of nutrient solutions with gases” by A.S. No. 1113023 АСС 23/02. Publ. 09/15/1984. Bull. Number 34.

The novelty of the development is that at the minimum cost of the additional equipment of the serial 4-row cultivator of the KFK-2,8 milling comb, the multifunctional combined ridger-fertilizer ridge is used, which makes it possible to additionally uniformly spread under the soil layer in the ridges formed locally from the ridges by wide a full dose of liquid mineral fertilizers with a strip, forming two ridges with potato tubers planted earlier, ensuring that the liquid fertilizer is uniformly fed Removable fertilizer in and around potato tubers.

Based on the results of research tests, the manufactured experimental model of the installation showed the operability of the proposed design, made in the form of a compact aerosol block mounted on a milling cultivator, equipped with a device for distributing liquid complex fertilizers in the form of liquid-alcohol fertilizers along the feeding tubes of lancet paws.

The test results of the feed system of the housing and utility services, feeding tubes and fertilizer as a whole showed the high quality of the given technological process of local volumetric application of optimal doses of liquid complex fertilizers at a working speed of 3-4 km / h with the exception of clogging of the output nozzles of the working bodies.

The dose of applying liquid complex fertilizers by the installation is 60-300 kg / ha with unevenness up to 10%.

The experimental setup made in the unit with MT3-80 + KFK-2.8 with a tank and a unit for local wide-band spreading of liquid complex fertilizers in the form of a liquid-air mixture for potatoes is universal and can be used both for agricultural experiments and for working out the technological the process and designs of universal feeding sprayers for applying liquid complex fertilizers used in the intensive cultivation technology of row crops.

During field trials, the main operations for preparing the soil for planting and planting potato cultivation are carried out according to common technologies, including the main and pre-planting cultivation, planting by the comb method after 70 cm. ridges when using the proposed ridge-forming fertilizer.

Intensive processing of SPS with the formation of ridges from ridges allows you to save money by eliminating the special operation to form the ridge, eliminating the need to purchase a special planter when introducing the bed technology, to reduce the number of weeds by using intensive processing, to provide a combine harvesting on medium and heavy soils, and reduce costs per unit of output.

The test results of the combined ridger-fertilizer on the medium loams of the Sverdlovsk region showed the efficiency of the design.

As the main tillage, autumn plowing (T-150K + PLN-5-35) to a depth of 20-22 cm was carried out. In the early spring harrowing (DT-75M + S-P + 12BZS-1,0) was carried out. Presowing treatment with cutting ridges after 70 cm. The width of the aggregate is 2.8 m. Planting of tubers by the aggregate as part of MT3-80 + SN-4B to a depth of 8-10 cm. Intensive processing with the formation of ridges from the ridges was carried out when weed emerged with a comb-forming cultivator KFK-2.8 milling with the proposed shaper of ridges and a system for volume application of housing and communal services in the form of a liquid-air mixture.

The modernization (refinement) of the KFK-2.8 cultivator in order to combine inter-row processing operations with the formation of two ridges of four ridges allows the inter-row processing to be carried out by active working bodies and the formation of two ridges by modernized forming sections when installing equipment for subsoil application in the form of housing and communal services in the form of live water supply with feeding tubes behind racks of lancet working bodies

A comparative assessment of the developed fertilizer was carried out during the formation of SPS with the cultivation of potatoes by comb (base) technology.

Harvesting was carried out by the unit as part of MT3-80-ISKU-2A-02.

Economic calculations showed that the use of the device reduces direct operating costs by 13%, and reduced costs by 14%.

The general research results showed that the proposed combined ridger-fertilizer when cultivating potatoes using the method of forming KNS in the form of a ridge with the simultaneous introduction of housing and communal services in the form of ZhVS reduces the cost of potato production by approximately 9-12 rubles per centner of production compared to the basic technology and can be recommended in farms when growing potatoes using modern technologies.

Claims (4)

1. Combined ridger-fertilizer for forming ridges from ridges after planting potato tubers, including a milling cultivator with lancet paws in front of the cutters and a ridge cultivator after milling cutters, characterized in that the lancet paws at the rear of the racks are equipped with feeding tubes for applying liquid complex fertilizers in the form of liquid-air mixtures from a centralized mixer-distributor installed in the aerosol application unit on the frame and having one metering liquid nozzle and centralization vanny supply of combustion air is installed on the frame in the feed blower-compressor unit. 2. The combined ridger-fertilizer according to claim 1, characterized in that it contains five lancet paws, the feeding tubes of the side legs having bends toward the center of the passage of the ridge formation with the possibility of directing the introduced liquid-air mixture under one inner wing of the leg, and the feeding tubes of the central legs made with the possibility of directing the flow of fertilizers in the form of a liquid-air mixture under both wings, while the ends of the feeding tubes under the legs have tips in the form of nozzles with a diameter of 4-8 mm. 3. The combined ridger-fertilizer according to claim 1, characterized in that the centralized mixer-distributor has a number of taps equal to the number of feeding tubes of the legs, and is connected to the feeding tubes behind the lancet legs by flexible plastic tubes with quick-release fasteners. 4. The combined ridger-fertilizer according to claim 1, characterized in that the compressor of the air blower is configured to change the rotational speed to adjust the air supply to the centralized mixer-distributor, while the air blower is a rotary compressor of the type RVN-40/350.

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