RU2370932C1 - System of liquid fertilisers distribution of combined aggregate for soil processing and liquid fertilisers application - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agricultural machine-building, in particular to technical means for intra-soil and superficial root and non-root additional fertilisation of plants with liquid fertilisers, plant spraying, processing with pesticides with simultaneous soil tillage, mechanical destroying of weeds, earthing up plants. System contains reservoirs for liquid fertilisers installed on support sites, containing primary screen filters with hydraulic mixers and respiratory labyrinth valve, located in filling neck of the reservoirs, funnel-suppressor, installed in reservoir bottom and jet mixer located in lower zone of reservoirs, and connected with replaceable sprayers, located on non-working back surface of chisel-shaped colters by means of pipelines and check valve through successively located low-pressure filter, membrane pump and regulator-distributor. System has pipelines of reverse solution supply and additional branch of pipelines with three-way tap, connected with input end with membrane pump, connected with the first output end through T-joint with hydraulic mixer of primary screen filter and jet mixer, and with the second end connected with pipeline of reverse solution supply. Hydraulic mixer is located in upper zone of primary screen filter and includes input branch pipe, connected with three-way tap and connected in T-like way to located in primary screen filter distribution pipe with installed on its free ends at acute angle to it supplying nozzles. Regulator-distributor includes reducing pressure valve connected through high-pressure filter with output branch pipes of distributing valve for supply of solution to sprayers of chisel-shaped colters, and manometre. Regulator-distributor is connected through input branch pipe with membrane pump, through output overflow branch pipe with pipelines of reverse supply of part of solution into reservoirs for liquid fertilisers and is equipped with handle for turning on regulator-distributor and handle of pressure regulating. High-pressure filter is equipped with outlet branch pipe for removal of filtered fraction.

EFFECT: invention solves the problem of reduction of material consumption by the system, extension of functional abilities of aggregate, increase of its productivity and versatility, increase of aggregate performance efficiency with simultaneous soil processing, destroying weeds and additional fertilising of cultivated crops.

11 dwg

Description

The invention relates to agricultural machinery, in particular to technical means for intra-root root or surface non-root top dressing of plants with liquid fertilizers, spraying plants, pesticides treatment with simultaneous loosening of the soil, mechanical destruction of weeds, hilling plants.

A known unit for feeding and applying herbicides to the root zone of plants, including a tractor and a cultivator having paws with stands, to which hoses with nozzles are attached, which are fluid supply pipelines, and sprayers made in the form of calibrated diffuser holes on the sides of each hose facing to the axis of the row of plants (patent RU No. 2274992, class АСС 23/02, 2006). The known unit is designed to perform several highly specialized functions, but does not solve the problem of preparing liquid fertilizers and differentiating their application, i.e. Its functionality is limited.

The closest one is the "Machine for differential application of liquid fertilizers" containing a vehicle with a hydraulic reservoir for fertilizers installed on it, a compressor, receiver, dispenser, ejector, systems for feeding, regulating and distributing fertilizers and compressed air, a boom with working bodies, a control unit and machine operation control (patent RU No. 2239303, АСС 23/00, 2004). The tank is equipped with a filling neck, a safety valve, a pressure gauge and is connected through a valve, a filter and a metering device to the fertilizer distribution system. This machine is designed for the differential application of finished fertilizers depending on the signals of the navigation system. Its rather complicated design does not provide for the preparation of a solution, and it is equipped with expensive equipment.

The solution of the technical problem is achieved by the fact that the distribution system of liquid fertilizers of the combined unit for tillage and liquid fertilizer application, containing a frame with support wheels attached to the working wheels, with a filling neck for fertilizer, interacting by means of a piping system with output nozzles, characterized by the fact that the frame is made in the form of a transverse load-bearing beam with centrally mounted on one side of it in the direction of movement of the unit a mounted hitch system and brackets for supporting wheels located in the end zones of the beam, as well as paired brackets fixed in the area of the supporting wheels, forming support platforms for containers, and sections with working bodies are fixed on the other side of the transverse beam by means of parallelogram mechanisms, at least containing chisel-like cultivators, the racks of which are equipped with nozzles with outlet nozzles, while each of the containers contains a primary strainer located in its filling neck p, a breathing labyrinth valve, a hydraulic mixer, a funnel and a jet mixer installed in the bottom of the containers, the containers are combined into a single pipeline through a piping system with check valves, which is then connected through nozzles to a low pressure filter, a diaphragm pump and a control valve with nozzles nozzles, while the system contains a return pipe to the solution in the tank and an additional branch of pipelines with a three-way valve connected with the outlet of the membranes of the pump, through the first outlet end of the three-way valve with a hydraulic mixer and a jet mixer, and through the second outlet end, connected to the return pipe of the solution, and the hydraulic mixer includes an inlet connected to a three-way valve and T-shaped connected to the distribution pipe equipped with installed at its free ends, at an acute angle to it by feed nozzles, while the control valve includes a pressure reducing valve connected through a high-pressure filter the inlet pipes of the pipelines for supplying the solution to the nozzles of the chisel-like cultivators, and a pressure gauge, the distributor being connected through the inlet pipe to the diaphragm pump, through the outlet of the pressure reducing pipe to the overflow pipe for returning part of the solution to the tank and equipped with an on / off switch and a control knob pressure, while the high-pressure filter is equipped with an outlet pipe to remove the filtered fraction.

The invention is illustrated by drawings.

Figure 1 shows a combined unit for tillage and liquid fertilizing, front view. Figure 2 is the same, top view. Figure 3 is the same side view. Figure 4 - fertilizer distribution system, hydraulic circuit. Figure 5 - diaphragm pump and a low pressure filter. Figure 6 - regulator-distributor, rear view. In Fig.7 - capacity for liquid fertilizers. On Fig - hydraulic mixer capacity for liquid fertilizers. In Fig.9 is the same, in section. Figure 10 - three-way valve. 11 is a low pressure filter.

The liquid fertilizer distribution system of the combined unit for tillage and liquid fertilizer application is mounted on a frame including a transversely mounted support beam 1, on which two longitudinal side beams 2 are mounted cantilever in front of the unit in its end zones, on which the support wheels 7 are mounted, and in the area of the support wheels, two pairs of support brackets 3 are fixed on the supporting beam 1, forming platforms for containers 12. Sections 6 are fixed to the beam through the parallelogram mechanisms 4 Static preparation bodies gauge wheels 8.

The soil-cultivating implements of the unit are made in the form of cultivating paws 10 with S-shaped spring struts 11, intended for loosening the soil with additional destruction of soil lumps due to elastic vibrations of the S-shaped strut 11 and cutting of weed roots, as well as chisel-like cultivators 13, equipped in the lower part of the adjustable interchangeable nozzle 14 located on the inoperative rear surface of the rack of the ripper 13, while the nozzles through a system of pipelines interact with containers. On the support brackets 3 in the front zone of the unit in the direction of its movement by means of clamps, two containers 12 for liquid fertilizers are installed. Each container 12 shown in Fig. 7 is equipped with a primary strainer 15, a hydraulic mixer 16 and a breathing labyrinth valve 17 located in the filling neck 18, a funnel choke 19 and a jet mixer 20, fixed in the lower zone of the tank 12. The funnel chaser 19 is located in the zone the outlet pipe 21 of the tank 12 in the area of its bottom. Tanks 12 are connected through a pipeline with a non-return valve 22 to each other, and through successively arranged low-pressure filters 23 and a diaphragm pump 24 are connected to a control valve 25. The control valve 25 includes a pressure reducing valve 26 connected through a high-pressure filter 27 to the outlet the nozzles 28 of the distribution valve directing the solution to the working bodies of the unit, and the pressure gauge 29. The diaphragm pump 24 is additionally connected through an additional branch of pipelines and a three-way to Ana 30 (in its first switch-on position) with jet mixers 20 and hydraulic mixers 16 of the tank 12. The pump 24 is additionally connected via a three-way valve 30 (in its second switch-on position) to the pipelines 31 for the reverse supply of a part of the solution to the tank 12. Pressure relief valve 26 is also additionally associated with pipelines 31 for the reverse supply of a part of the solution in the tank 12.

The distribution valve 25 further comprises an inlet pipe 32 connected to the pump 24, an output overflow pipe 33 connected to the return pipes 31 of the part of the solution in the tank 12, an output pipe 34 of the filter 27 for removing the filtered fraction, a handle 35 for activating the distribution valve 25 and pressure control knob 36. The three-way valve 30 has a rotary control knob 37. The hydraulic mixer 16 includes an inlet pipe 38 connected through a valve 39 to a three-way valve 30 directing a portion of the solution from the pump 24 to the mixer 16 or the jet mixer 20. The pipe 38 is T-shaped connected to the distribution pipe 40 , at the free ends of which, at an acute angle to the pipe 40, feed nozzles 41 are installed. The three-way valve 30 has an inlet pipe 42 connected to a pump 24, an outlet pipe 43 for supplying the solution to the jet mixer 20, and an outlet pipe 44 for feeding the solution a thief to the hydraulic mixer 16. The low-pressure filter 23 has inlet nozzles 45 located above the filter 23, T-shaped to it and connected with containers 12, and a lateral outlet nozzle 46 connected to the pump 24.

The combined unit for tillage and liquid fertilizer application is used in all soil and climatic zones. The distribution system of liquid fertilizers of the combined unit for tillage and the application of liquid fertilizers works as follows. The combined unit with cultivating legs 10 having S-shaped spring struts 11, cultivators 13 with nozzles equipped with nozzles, and tanks 12 with liquid fertilizers treats the row-spacing soil, loosening it and cutting the roots of weeds. During the movement of the unit, liquid fertilizers are applied to the treated aisles, intended for the growing root system of cultivated plants. In the same configuration, the unit is used to make pesticides in the aisles.

To prepare a liquid fertilizer solution, the required amount of liquid is poured into the tank 12, the solid components of the fertilizers are poured into the primary strainer 15 of the tanks 12. The handle 37 of the three-way valve 30 from the "closed" position is set to the "regulator-distributor is closed" position. The fluid from the nozzles 41 of the hydraulic mixer 16 enters the filter 15 and erodes the solid components of the fertilizer. Due to the location of the hydraulic mixer 16 in the upper zone of the primary strainer 15 and the T-shaped arrangement of the distribution pipe 40 with the feeding nozzles 41 installed at its free ends at an acute angle to it, the process of washing out the solid fraction is accelerated and the time required for preparing liquid fertilizers is reduced. The feed nozzles 41 erode solid fertilizer fractions by intersecting jets directed from top to bottom at an angle to each other, while the eroded fertilizers are intensively pressed by these jets through the filter screen 15, accelerating the process of obtaining liquid fertilizers. Thus, there is no need to deliver a liquid fertilizer solution on the field to the unit, the amount of time required to feed the plants is reduced. After the fertilizers are completely washed away, the handle 37 of the crane 30 is set to the “open jet mixer” position, see FIG. 10. The liquid enters the jet mixer 20, which mixes the solution inside the vessel 12, preventing the formation of sediment at the bottom. Due to the fact that a working solution of containers 12 is used for feeding to the jet mixer 20, delivered back by an additional branch of pipelines using a pump 24 and a three-way valve 30, the quality of liquid fertilizer increases, its fineness, the amount of undissolved sludge is reduced.

The low pressure filter 23 is designed for primary filtration of the solution. The solution through the check valves 22 and the filter 23 from the containers 12 enters the inlet pipe of the pump 24. The check valves 22 exclude the possibility that the containers 12 form a system of communicating vessels and prevent the solution from overflowing from one container 12 to another. The working pressure in the system is created by a diaphragm pump 24, mounted on the tractor PTO. The solution from the outlet pipe of the pump 24 enters the inlet pipe 32 of the regulator-distributor 25. When the regulator-distributor 25 is working, the solution through the inlet pipe 32 enters the high-pressure filter 27, and from there to the outlet pipes 28 of the distributor valve, which supplies fertilizer to the nozzles 14 of the cultivators 13. The excess solution is removed through the pipe 33, and the filtered fractions of the filter 27 are removed through the pipe 34. The handle 35 controls the flow of the solution into the control valve 25. The pressure gauge 29 shows the current pressure of the solution, zmenyaemoe turning the handle 36. Because the outlet fitting 34 of the filter 27 and the overflow pipe 33, the solution enters the collector pipe 31, the return flow of the solution in the container 12. From the nozzle 28 enters the fireproof solution designed to disable feed solution after depressurization of the hydraulic system. The nozzle 14, having a housing with a filter, a swirl and a spray, is connected to the nozzle 28. The swirl is designed to create a fine jet, and the nozzle 14 is used to normalize the level of flow of the working fluid.

Three-stage filtration of liquid fertilizer solution: in the primary strainer 15, then in the low-pressure filter 23, and then in the high-pressure filter 27, it is possible to supply a fine mixture to the spray nozzles 14 of the coulters 13, which prevents clogging of the nozzles 14. Such a fine fertilizer mixture is evenly sprayed and well distributed between plants. Using a three-way valve 30 to return part of the liquid in the tank 12 to the hydraulic mixer 16 or the jet mixer 20 makes it possible to economically consume liquid in the system and increase the uniformity of mixing of all fractions of fertilizers with each other, ensuring the independence of the hydraulic mixer 16 and the jet mixer 20 without additional energy costs when using the same working fluid that is in the tanks 12. Drain the excess fluid through the pipe 31 from the control valve 25 and pump 2 4 in the tank 12 also provides savings in solution, eliminates the loss of fertilizers, increases the period of operation of the unit.

The use of two containers 12, spaced across the width of the unit, makes it possible to improve its balance, reduce the load on the frame, increasing the size of the tanks 12 and, accordingly, the performance of the unit. The use of interchangeable nozzles 14 makes it possible to use them for different purposes and various crops, as well as for spraying plants, expanding the functionality of the unit.

The combined unit is used for spraying plants after a small conversion.

Thus, the claimed invention solves the technical problem of improving the reliability of the process, improving the quality of the preparation of liquid fertilizer solution and the uniformity of its application, reducing the material consumption of the system, expanding the functionality of the unit, increasing its productivity and versatility, increasing the efficiency of the unit while simultaneously processing the soil, destroying weeds and top dressing of cultivated crops.

Claims (1)

The liquid fertilizer distribution system of a combined unit for tillage and liquid fertilizer application, comprising a frame with support wheels with working bodies fixed thereto and a fertilizer filling neck interacting by means of a piping system with output nozzles, characterized in that the frame is made in the form of a transverse a supporting beam with fixed on it on one side of it in the direction of movement of the unit with a centrally located linkage system and brackets for the support wheels, sections located in the end zones of the beam, as well as paired brackets fixed in the region of the support wheels, forming support platforms for containers, and sections with working bodies at least containing chisel-like cultivators whose racks are equipped with nozzles with output nozzles, while each of the containers contains a primary strainer located in its filler neck, a breathing labyrinth valve, a hydraulic stirrer, a crow an extinguisher and a jet mixer installed in the bottom of the containers, and the tanks are combined through a piping system with check valves into a single pipeline, which is further connected through nozzles with a low pressure filter, a membrane pump and a regulator-distributor to nozzle nozzles, and the system contains a return pipe solution in the tank and an additional branch of pipelines with a three-way valve connected with the outlet of the diaphragm pump through the first output end of the three-way valve with a hydraulic mixer and a jet mixer, and through the second outlet end is connected to the return pipe of the solution, and the hydraulic mixer includes an inlet pipe connected to a three-way valve and T-shaped connected to the distribution pipe, equipped with feed points mounted at its free ends at an acute angle to it nozzles, while the regulator-distributor includes a pressure reducing valve connected through a high-pressure filter to the inlet pipes of the pipelines for supplying the solution to the force ki of chisel-like cultivators, and a pressure gauge, the regulator-distributor connected through the inlet to the diaphragm pump, through the outlet of the pressure reducing pipe to the overflow pipe for returning part of the solution to the tank and equipped with a handle for turning on the regulator-distributor and a pressure control knob, while the high-pressure filter equipped with an outlet pipe to remove the filtered fraction.

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