RU215302U1 - COMBINED UNIT FOR INTRASOIL APPLICATION AND EFFICIENT DISTRIBUTION OF LIQUID COMPLEX FERTILIZERS WITH SIMULTANEOUS SOIL TREATMENT - Google Patents

Abstract

The utility model relates to agriculture, in particular to technical means for continuous pre-sowing tillage.

The essence of the utility model is that at a minimum cost of re-equipping the unit for continuous pre-sowing tillage based on serial equipment, which allows one pass to perform soil cultivation while simultaneously applying the required dose of liquid mineral fertilizers, distributed evenly, volumetrically, to a given depth. As a base machine, using a cultivator with working bodies in the form of 16 lancet paws, additionally equipped with a container for liquid fertilizers, a block for mixing and supplying liquid-air fertilizers, the lancet paws behind the racks are retrofitted with feeding tubes with nozzles for the release of fertilizers during tillage , feeding tubes of the lancet paws behind the racks are equipped with a centralized supply of fertilizers from a mixer-distributor.

Description

The utility model relates to agriculture, in particular to technical means for continuous pre-sowing tillage and fallow treatment, equipped with a device for attaching tooth harrows, used for multi-layer loosening of the soil before sowing and the destruction of various types of weeds.

Known patent SU 1113023A1 "Unit for introducing into the soil a mixture of nutrient solutions with gases". The design of the unit can be considered a prototype.

The disadvantage of the known unit is the complexity of its design, due to the presence in each working body of channels for supplying liquid and gas, as well as a valve system that serves to release liquid and gas into the soil, also a disadvantage of the known unit is the uneven distribution of nutrient solutions in the form of a gas-dispersed mixture due the fact that the mixture of nutrient solutions with gases is not formed inside the mixing and distributing chamber, but only at the exit from it.

Known patent RU2239303C1 "Machine for differentiated application of liquid mineral fertilizers" is one of the similar designs, the use of which is focused on surface bar fertilizer application.

Known patent RU 188017 U1 "Combined bed-forming fertilizer" is one of the similar designs, the use of which is focused only on the formation of the tuber of the carrier layer with the simultaneous introduction of a full dose of fertilizer.

The disadvantage of the design can be considered a small range of doses of applied fertilizers, the use only in the formation of the tuber of the carrier layer and ridges.

The objective of the utility model is to develop, at a minimum cost, the conversion of the cultivator into a combined unit, which allows, in one pass, when loosening the soil before the start of sowing work, simultaneously, locally, to apply a full agrotechnically justified dose of liquid, easily digestible mineral fertilizers to a given depth, distributed evenly, volumetrically in the root zone. layer.

The problem is solved by using the KPS-4 cultivator as the base serial machine with working bodies in the form of lancet universal paws, working bodies in the form of lancet universal paws 9 are equipped with feeding tubes 8 for applying liquid fertilizers and fertilizers in liquid-air (drop-air) ) under pressure. Fertilizers are supplied to the feeding tubes 8 through the nutrient path 7 to each working body under pressure from the mixer-distributor for enrichment with useful substances of various cultivated plants 6. Air and fertilizers are supplied to the mixer-distributor under pressure through the control and measuring fittings 5. Fertilizers and air are supplied to the control and measuring fittings 5 from the membrane pump 3 and the rotary vacuum pump 4. The fertilizer enters the membrane pump 3 from the tank 2 installed on the combined unit 1 through the filter, the air enters the rotary vacuum pump 4 through the air filter of zero resistance. Diaphragm and vacuum pumps are driven by the power take-off shaft of the tractor.

The unit contains sixteen working bodies in the form of universal lancet paws, feeding tubes are located in pairs on the racks of lancet paws. Feeding tubes 8 end with flat-flare nozzles 14. Flat-flare nozzles 14 can be made as a single piece from the end of the feeding tubes, or installed as a separate, pre-made element at the end of the feeding tubes.

Flat-flare nozzles 14 are located so that the fertilizer application torch is turned in the opposite direction of the unit movement, and the outlet flat-flare nozzle 14, located at the place where fertilizers exit the feeding tube 8, is covered by a protective plate 13 on the lancet arm 9.

The nozzles located on the feeding tubes of the lancet paws have the shape of a crescent with a hole width for the output of fertilizers from 1 mm to 8 mm.

The protective plates are made of sheet metal with a thickness of 1.5 mm to 3 mm in the form of two separate parts: right and left or one whole with a cutout in the middle, fixed by welding or riveting to the lancet foot.

The number of feeding tubes is twice the number of working bodies, while the feeding tubes are connected in pairs and connected through a nutrient path to a mixer-distributor for enrichment with useful substances of various cultivated plants.

The presence of adjusting and measuring fittings allows setting and adjusting the unit in a wide range of doses of applied fertilizers.

On FIG. 1 shows a side view (left) and a top view of a combination implement for subsurface application and effective distribution of liquid complex fertilizers with simultaneous tillage.

On FIG. 2 shows the mounting of feeding tubes with outlet nozzles on the working bodies of universal lancet shares.

Combined unit for subsoil application and effective distribution of liquid complex fertilizers with simultaneous tillage (Fig. 1) includes

cultivator for continuous tillage 1; fertilizer tank (on a cultivator frame or on a pom-630 tractor) 2; membrane pump with filter 3; vacuum rotary pump with filter 4; adjusting fittings 5; mixer-distributor for enrichment with useful substances of various cultivated plants (device for dosing and uniform distribution of liquids introduced into the soil mixed with gases) 6; nutrient path to each working body for applying liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure 7; feeding tubes located in pairs behind the working bodies for applying liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure 8.

Fig. 2 - feeding tubes located in pairs behind the working bodies for applying liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure 8; lancet paws 9; racks of lancet paws 10; collar 11; overlay 12; protective plate 13; outlet flat jet nozzle 14.

Fig. 3 Feeding tubes 8, located in pairs behind the working bodies for applying liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure; tubes located in pairs behind the working bodies for applying liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure 8; outlet flat jet nozzle 14.

In the process of working when cultivating the soil, the tractor driver, having driven into the field, lowers the unit to the working position, turns on the PTO and adjusts the pressure of the pump 3 and 4 with the control valve 5, sets the flow rate of fertilizers and air according to the previously performed calibration. At the same time, from pumps 3 and 4, through control valves 5, air and fertilizers are supplied to the mixer-distributor for enrichment with useful substances of various cultivated plants 6, mixing, air and fertilizers create a liquid-air (drop-air) mixture, which, under pressure, enters the nutrient paths 7 to each feeding tube 8 located behind the working body, fixed on the racks 10 with clamps 11 with pads 12, and is introduced into the soil layer at a given depth in a given amount.

The combined unit for subsoil application and effective distribution of liquid complex fertilizers with simultaneous soil cultivation ensures the application of liquid fertilizers and fertilizers in liquid-air (drop-air) form under pressure under universal lancet paws according to the method of introducing a concentrated liquid into the soil according to A.S. No. 1702914 А01С 21/00. Published 01/07/1992. Bull. No. 1, which is a further development of the development "Unit for introducing a mixture of nutrient solutions with gases into the soil" according to A.S. No. 1113023 А01С 23/02. Published 09/15/1984. Bull. No. 34.

The novelty of the development is that, with a minimum cost of retrofitting a serial cultivator KPS-4, a combined unit for subsoil application and effective distribution of liquid complex fertilizers with simultaneous soil cultivation is embodied, which allows in one pass to additionally apply a full agrotechnically justified dose of liquid easily digestible mineral fertilizers to a given depth, distributed evenly, volumetrically in the root layer.

Based on the results of research and field tests, the manufactured experimental sample of the plant showed the operability of the proposed design, made in the form of a compact aerosol unit mounted on a cultivator, equipped with a device for distributing liquid fertilizers in liquid-air (drip-air) form through feeding tubes mounted on universal racks. lancet paws.

The test results of the system for supplying liquid-air (drip-air) fertilizers, feeding tubes and the unit as a whole showed the high quality of the given technological process of local, volumetric, agrotechnically justified doses of liquid complex fertilizers at a working speed of 3-5 km / h with the exception of clogging of the outlet nozzles of the working bodies.

The dose of application of liquid complex fertilizers by the installation is 100-500 kg/ha with unevenness up to 10%, and 500-1000 kg/ha with unevenness up to 15%.

The experimental setup, made in a unit with MT3-80 + KPS-4 with a tank and a block for local wide-band application of liquid complex fertilizers in the form of a liquid-air (drop-air) mixture before sowing, is universal and can be used both for agrotechnical experiments , and for testing the technological process and designs of universal feeders-sprayers for applying liquid complex fertilizers used in the intensive technology of cultivating grain and row crops.

During field trials, the main operations for preparing the soil for planting are carried out using common technologies, including basic and pre-planting cultivation.

Pre-sowing tillage and fallow treatment, used for multi-layer loosening of the soil before the start of sowing and the destruction of various types of weeds with simultaneous intrasoil fertilization in the soil in the form of a liquid-air (drop-air) mixture, saves money by eliminating a separate application operation fertilizers, eliminate the need to purchase a special unit for fertilizing, reduce the number of weeds by using intensive processing, and reduce the cost of funds per unit of production.

The results of testing a combined unit for subsoil application and effective distribution of liquid complex fertilizers with simultaneous tillage on medium loams of the Sverdlovsk region showed the efficiency of the design.

The general test results showed that the proposed combined unit for subsoil application and effective distribution of liquid complex fertilizers with simultaneous soil cultivation, surface pre-sowing treatment with simultaneous application of fertilizers in the form of a liquid-air (drop-air) mixture, reduces production costs to 10-15 rubles per centner of production in comparison with the separate use of operations and can be recommended on farms when growing grain and row crops.

Claims (6)

1. Combined unit for subsurface application and effective distribution of liquid complex fertilizers with simultaneous tillage, including a cultivator for continuous tillage, a fertilizer tank mounted on the cultivator frame, a membrane pump with a filter, a vacuum rotary pump with a filter, control valves and a mixer-distributor , working bodies in the form of lancet universal paws, a feeding path to each working body for applying fertilizers in liquid-air form under pressure, feeding tubes for applying fertilizers in liquid-air form under pressure, located behind the working bodies and fixed on the racks of lancet paws with clamps with overlays, characterized in that the working bodies in the form of lancet universal paws are equipped with fertilizing tubes for applying fertilizers in liquid-air form under pressure in pairs, and the outlets of the feeding tubes are equipped with flat-flare nozzles to create a spray torch fertilizer and are protected from dirt by protective plates connected to the lancet shares. 2. The combined unit according to claim 1, characterized in that it contains sixteen working bodies in the form of universal lancet paws, feeding tubes are located in pairs on the racks of the lancet paws, and the position of the feeding tubes is located so that the fertilizer application torch is deployed in the opposite direction of the unit movement , and the outlet flat-flare nozzle, located at the place where fertilizers exit the feeding tube, is covered with a protective plate on the lancet share. 3. The combined unit according to claim 1, characterized in that the nozzles located at the outlets of the feeding tubes of the lancet paws have the shape of a crescent with a width of the opening for the output of fertilizers from 1 mm to 8 mm. 4. Combined unit according to claim 1, characterized in that the protective plates are made of sheet metal with a thickness of 1.5 mm to 3 mm in the form of two separate parts: right and left or one whole with a cutout in the middle, fixed by welding or riveting to the lancet paw. 5. The combined unit according to claim 1, characterized in that the number of feeding tubes is twice the number of working bodies, while the feeding tubes are connected in pairs and connected through a nutrient path to a mixer-distributor for enrichment with useful substances of various cultivated plants. 6. Combined unit according to claim 1, characterized in that the flat-flare nozzles can be made as a single unit from the end of the feeding tubes, or installed as a separate, pre-made element at the end of the feeding tubes.

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