RU176478U1 - SPRINKLER - Google Patents

Abstract

The utility model relates to agriculture and can be used on sprinkler machines with a hydraulic drive, moving in a circle around a fixed support, for applying soluble fertilizers and other chemicals. The technical task of the utility model is to simplify the design and increase the reliability of the equipment for feeding fertilizers and reduce its cost, improve the operational performance of the technological capacity and increase the reliability of the sprinkler. A sprinkler machine, including a fixed support with a rotary elbow and a butterfly valve, a pipeline supported by self-propelled carts with hydraulic actuators, an additional polyethylene pipe connected through a fine filter with a rotary elbow to the butterfly valve and with hydraulic actuators of the carts, a technological tank for preparing a solution of mineral fertilizers, characterized in that it is equipped with an injector, the inlet sleeve of which is connected to the pipeline of a closed irrigation network to a hydraulic valve, the outlet ru aB which is connected to a sprinkler pipe after the butterfly valve, and the injector suction hose connected to the suction pipe storage vessel, wherein an agitator with barboratorom and hydraulic cleaning nozzles and flange. The advantage of the proposed irrigation machine is that it simplifies the process of introducing a solution of mineral fertilizers with irrigation water, since the injector is simple in design, reliable in operation and much less in cost of a membrane hydraulic feeder. The introduction of a solution of mineral fertilizers with irrigation water is carried out at low pressure operation of the machine. The required pressure at the inlet of the machine is reduced to 0.35-0.4 MPa (instead of 0.5-0.7 MPa for mass-produced machines). Aggressive solution of mineral fertilizers enters only into the machine’s pipeline, and only clean water enters the mechanisms for regulating the speed of movement, hydraulic drives of trucks and hydraulic protection of the machine, which increases the reliability of their operation. A solution of mineral fertilizers is fed through surface irrigation devices, while it gets on the structural elements of the sprinkler. The rotation of the mixer ensures the mixing of fertilizers in the solution and accelerates their dissolution. The shape of the technological tank ensures that undissolved fertilizers get into the lower semi-cylindrical part, in which water is well mixed with a mixer. Insoluble slurry of mineral fertilizers is easily removed after removal of the treatment flange. 2 ill.

Description

The utility model relates to agriculture and can be used on sprinkler machines with a hydraulic drive, moving in a circle around a fixed support, for applying soluble fertilizers and other chemicals.

Known sprinkler machine type "Frigate", consisting of a fixed support, a water supply pipe with sprinklers, mounted on carts with hydraulic drives. For the application of soluble fertilizers, a hydraulic feeder is used, consisting of a technological tank, a membrane pump hydraulically connected through a distributor, a throttle, a check valve with a hydraulic actuator and a pressure pipe of the machine. (Handbook on irrigated agriculture. Saratov, 1994. - 432 p .; Feed dresser for irrigation and irrigation machines: A.S. No. 594915, А01С 23/04, publ. 02.28.1978, Bull. No. 8).

The disadvantages of the Frigate sprinkler are that the sprinkler's energy consumption is large, the working head at the inlet of the machine is 0.5-0.7 MPa, and the hydrofeed has a complex structure and low reliability.

As the first prototype of the proposed utility model, a sprinkler of circular action was chosen, including a fixed support with a rotary elbow, self-propelled carts with hydraulic drives, as well as two pipelines - the main (water supply) made of polyethylene pipes and an additional one made of galvanized steel pipes of small diameter ; pipelines for structural rigidity are fastened together by clamps, while the main polyethylene pipe is connected to the rotary elbow of the fixed support through a butterfly valve, and an additional steel pipe is connected directly to the rotary elbow. For the application of soluble fertilizers, a hydraulic feeder is used, consisting of a technological tank, a diaphragm pump hydraulically connected through a distributor, a throttle, a check valve with a hydraulic actuator and a pressure pipe of the machine (Sprinkler machine: Utility model of the Russian Federation No. 154814, A01G 25/09, published on 09/10/2015 , Bull. No. 25; A.S. No. 594915; Feeding machine for sprinkler and irrigation machines: A.S. No. 594915, А01С 23/04, published on 02.28.1978, Bull. No. 8).

The disadvantage of this machine is that aggressive soluble fertilizers fall into the mechanisms of regulating the speed of movement and hydraulic drives of the bogies, causing their corrosion. The hydraulic feeder has a complex structure and low reliability, it is difficult to prepare a solution in a technological vessel using only a barrator, and the treatment of insoluble sludge is laborious.

As a second prototype of the proposed utility model, a circular sprinkler was selected, including a fixed support with a fixed pipe and a rotary elbow, connected to the machine’s pipeline, sprinklers, self-propelled carts with hydraulic actuators and high-speed valves with drain lines, while high-speed valves are connected to an additional pipeline connected to the machine’s pipeline in its head part - a locking element with a hydraulic actuator, a hydraulic relay with a control unit connected to an upstream pipeline through a constriction device (nozzle) with a control pipe of an external protection system, characterized in that the rotary elbow is equipped with a valve installed on the machine’s pipeline, and the additional pipe of the machine is connected to the machine’s pipeline through the hydraulic valve with hydraulic actuators of the support trolleys, moreover, the hydraulic actuators are hydraulic valves are connected to the control pipe of the external protection system, the drain lines of the hydraulic drives of the bogies are equipped with nozzles for spraying the working fluid the application of foliar feeding of plants, treatment with pesticides and growth stimulants coming from a metering device, made in the form of a hydraulic actuator, divided by a piston into the upper and lower cavities, the lower cavity of which is connected to an additional pipeline through a non-return valve and a metering valve, and the upper is connected to the pressure pipe through a hydraulically operated two-way valve, in addition, the lower cavity has a valve with a fitting for filling the dispenser with the mother liquor (Multifunctional irrigation machine: atent RF №2212787, A01G 25/09, publ. 09/27/2003, Bull. No. 27).

The disadvantages of this machine are that aggressive chemicals are fed through speed control mechanisms and hydraulic carts, which reduces the reliability of their work. A dispenser for foliar feeding of plants, treatment with pesticides and growth stimulants is designed to supply small volumes of a mother liquor of 4-6 l / ha and has low reliability. The sprinkler has a low uniformity of irrigation when chemicals are applied by micro-sprinklers through a practically pressureless drain line of hydraulic drives.

The technical task of the proposed utility model is to simplify the design and increase the reliability of the equipment for feeding fertilizers and reduce its cost, supply the mother liquor of fertilizers in a wide range from 60 to 1000 l / h, improve the operational performance of the technological capacity and increase the reliability of the sprinkler.

This task is achieved by the fact that the sprinkler is equipped with an injector, the inlet sleeve of which is connected to the piping of the closed irrigation network before the hydraulic shutter, the outlet hose is connected to the piping of the sprinkler, after the disk shutter, and the suction hose of the injector is connected to the intake pipe of the technological tank in which the agitator is installed with barborator and hydraulic nozzles and a cleaning flange.

The proposed utility model is illustrated by drawings.

In FIG. 1 shows a general view of a sprinkler. In FIG. 2. shows the technological capacity.

The sprinkler machine (Fig. 1) consists of a fixed support 1, self-propelled carts 2 with hydraulic actuators 3 and mechanisms for controlling the speed of movement 4. The pipeline 5 of the machine is connected to the rotary elbow 6 of the fixed support 1 and to the self-propelled carts 2. Between the pipeline 5 of the machine and the rotary elbow 6, a butterfly valve is installed 7. On the pipeline 5 of the machine, surface irrigation devices 8 are mounted, equipped with irrigation nozzles 9 with “reverse cone” deflectors. An additional polyethylene pipe 10 is laid along the pipe 5 of the machine and connected through a fine filter 11 and a branch 12 to the rotary elbow 6 to the disk shutter 7. An additional polyethylene pipe 10 supplies water to the speed control mechanisms 4 and hydraulic actuators 3, as well as to the actuating valves 13 hydroprotection by means of a tube 14, which is also connected to the hydraulic relay 15 of the hydraulic valve 16, and with the executive valve 17 of the technological tank 18 (Fig. 2) and a shut-off valve 19, which sets I was in the pipeline 20 is closed irrigation network. The inlet sleeve 21 of the injector 22 is connected through a valve 23 and a shut-off valve 19 with a pipe 20 of a closed irrigation network. The outlet sleeve 24 of the injector 22 is connected to the pipeline 5 of the machine after the disk shutter 7. The technological tank 18 (Fig. 2) is equipped with a stirrer 25, which includes a barborator 26 with hydraulic nozzles 27. The barborator 26 is connected by a sleeve 28 to a power tap 29. A filter 31 is installed between the process vessel 18 and the intake pipe 30, which passes only the solution, preventing undissolved fertilizers from entering the intake pipe 30. A float 32 is installed in the intake pipe 30, on which the actuating valve 17 of the process vessel 18 is mounted. In the lower part of the intake pipe 30, a filter 33 is installed, which is connected to the injector 22 by a suction sleeve 34. The technological container 18 in the form (Fig. 2) is made so that insoluble fertilizers fall into the lower half-cylindrical part, along which d, rotating, the mixer 25 moves with the barborator 26. The technological tank 18 is equipped with a cleaning flange 35. The ability to quickly move the technological tank 18 between several sprinklers and to the storage base is carried out by mounting it on a metal ski 36.

Sprinkler machine operates as follows. Water under pressure from the pipeline 20 of the closed irrigation network, when manually opening the hydraulic valve 16 passes through the rotary elbow 6 of the fixed support 1 and the disk valve 7 enters the pipeline 5 of the machine, then into the surface irrigation devices 8 and is sprayed through the field with irrigation nozzles 9 with deflectors " reverse cone. " Water under pressure through the outlet 12 and the fine filter 11 enters an additional polyethylene pipe 10 and then into the mechanisms for controlling the speed of movement 4 and the hydraulic actuators 3 of the self-propelled carts 2. The butterfly valve 7 is fully open, the pressure of 3.0-4 is set at the inlet of the sprinkler , 5 atm (depending on the length of the machine and water flow) to ensure irrigation in low pressure mode. Water through the tube 14 with closed actuating valves 13 enters the hydraulic relay 15 and provides automatic opening of the hydraulic valve 16 and irrigation of the sprinkler machine in automatic mode.

Before introducing a solution of mineral fertilizers with irrigation water, it is necessary to prepare the mother liquor in the technological tank 18. Mineral fertilizers are poured into the technological tank 18, then, by opening the supply tap 29, water under pressure along the sleeve 28 is supplied to the barborator 26 of the mixer 25. From the hydraulic nozzles 27, the outgoing water creates boiling and rotating streams that begin to dissolve the mineral fertilizers. After filling the process tank 18 with water, the power tap 29 is closed. Most of the mineral fertilizers dissolve, and some, the remaining part, will settle in the lower part of the technological tank 18. The operator, by rotating the mixer 25, provides additional dissolution of fertilizers and an increase in the concentration of the solution in the technological tank 18. Only insoluble sludge remains at the bottom of the technological tank 18. The solution of mineral fertilizers through the filter 31 enters the intake pipe 30 with a float 32, which, when the process tank 18 is full, is in the upper position. The Executive valve 17 in this case will be closed. The solution is ready for application on the field with irrigation water. To do this, the operator opens the hydraulic valve 16 and turns on the sprinkler to irrigate with fertilizers. Water through the tube 14 with closed actuating valves 13 enters the hydraulic relay 15, provides automatic opening of the hydraulic valve 16 and irrigation of the sprinkler machine in automatic mode. After that, the operator opens the valve 23, and water through the injector 22 and through the outlet sleeve 24 enters the pipeline 5 of the machine. To ensure stable operation of the injector 22, the pressure drop should be 0.8-1.0 atm, for this the operator covers the disk shutter 7.

With the passage of water in the injector 22, a vacuum is created, and the solution of mineral fertilizers through the suction sleeve 34 through the filter 33 enters from the intake pipe 30 of the technological tank 18 to the injector 22 and then along the sleeve 24 to the pipe 5 of the machine. A solution of mineral fertilizers is diluted in the pipeline 5 of the machine with irrigation water, fed to the surface irrigation devices 8 and sprayed over the field with irrigation nozzles 9, feeding the agricultural plants.

In the event that any of the self-propelled bogies 2 of the machine stops, the executive valve 13 of the hydraulic protection is depressurized and the command 14 closes the hydraulic valve 16 and the shutoff valve 19. The water supply to the sprinkler and injector 22 is stopped, watering and the supply of fertilizer solution are stopped. After eliminating the malfunction on trolley 2, the operator again turns on the sprinkler to irrigate and fertilize. At the end of irrigation and the end of the solution of mineral fertilizers in the technological tank 18, the float 32 is lowered downward along the intake pipe 30 and pressurizes the hydraulic protection actuator 17, which sends the command through the pipe 14 to close the hydraulic valve 16 and the shutoff valve 19. Water supply to the sprinkler and injector stops, watering stops.

The advantage of the proposed irrigation machine is that it simplifies the process of introducing a solution of mineral fertilizers with irrigation water, since the injector 22 is simple in design, reliable in operation and its cost is much lower than the cost of a membrane hydraulic feeder. The introduction of a solution of mineral fertilizers with irrigation water is carried out at low pressure operation of the machine. The required pressure at the inlet of the machine and in the additional polyethylene pipe 10 is reduced to 0.35-0.40 MPa (instead of 0.5-0.7 MPa for mass-produced machines). Aggressive solution of mineral fertilizers enters only in the pipeline 5 of the machine and there it is significantly diluted, and only clean water gets into the mechanisms for regulating the speed of movement 4, hydraulic drives 3 of the carts 2 and the hydraulic protection of the machine, which increases the reliability of their operation. The solution of mineral fertilizers is fed through a surface sprinkling device 8, while its falling on the structural elements of the sprinkler is reduced. The rotation of the mixer 25 provides intensive mixing of fertilizers in solution, which accelerates their dissolution. The shape of the technological tank ensures the subsidence of insoluble fertilizers in the lower semi-cylindrical part, which are well mixed with a mixer 25. Insoluble slurry of mineral fertilizers is easily removed after removal of the treatment flange 35.

Claims (1)

A sprinkler machine, including a fixed support with a rotary elbow and a butterfly valve, a pipeline supported by self-propelled carts with hydraulic actuators, an additional polyethylene pipe connected through a fine filter with a rotary elbow to the butterfly valve and with hydraulic actuators of the carts, a technological tank for preparing a solution of mineral fertilizers, characterized in that it is equipped with an injector, the inlet sleeve of which is connected to the pipeline of a closed irrigation network to a hydraulic valve, the outlet ru aB which is connected to a sprinkler pipe after the butterfly valve, and the injector suction hose connected to the suction pipe storage vessel, wherein an agitator with barboratorom and hydraulic cleaning nozzles and flange.

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