RU2222940C1 - Sprinkling-spraying unit - Google Patents

Abstract

FIELD: agricultural engineering, in particular, irrigated agriculture. SUBSTANCE: unit has tractor, carrier girder, pump, water supply girdle with sprinkler heads, compressor, surfactant vessel, additional pipeline arranged in equally spaced position on water supply girdle and sprinklers hydraulically connected to surfactant vessel through pipe. Compressor is provided with drive and connected through air hose to bubbler mounted on bottom of surfactant vessel. Surfactant is carmydol comprising higher fatty alcohol and carbamide (urea). Surfactant vessel has pressure gauge, safety inlet valve, valve with remote control equipment, vent and closure. Surfactant vessel is connected through valve with remote control equipment to additional pipeline. Vent is adapted for connecting pump pressure hose with surfactant vessel. Each sprinkler head is aligned with sprinkler. Head and sprinkler are formed as integral part. Sprinkler nozzle is directed tangentially to drop forming blade of head. Sprinkler nozzle incorporates adjustable jet fixed on end of screw equipped with flywheel. Sprinkler cavity is communicated with additional pipeline through compensator. Unit may be employed for cultivating of farm crops in arid zones and in zones with marked continental climate. EFFECT: increased efficiency and enhanced reliability in operation of unit. 9 cl, 8 dwg

Description

 The invention relates to agriculture and can be used for irrigation of crops, in particular in arid zones and areas with sharply continental climate: high air temperature, low air humidity, high surface wind speeds, frequent changes in their directions of movement, acute moisture deficit in the root-inhabited horizon with its sufficient amount in the underlying horizons.

A known unit for irrigation of crops, including mounted on a self-propelled farm with water belts, deflector nozzles and hose outlets, equipped with shut-off bodies connected by control tubes to a pump, in which, to simplify operation, the hose outlets are made of elastic material and provided with a rear sides with water filling chambers hydraulically connected by means of a tube and through a hydraulic distributor with pressure and suction lines of the pump (SU , copyright certificate 1442138 A1, M.cl. ⁴ A 01 G 25/09. A unit for irrigation of agricultural crops / V.K. Fedoseev (USSR) - 4243129 / 30-15; Declared 05/13/1987; Publish. 07.12. 1988, Bull. 45. // Discoveries. Inventions. - 1988. - 45).

 The disadvantage of this unit is that, despite the relatively wider capabilities compared to the widespread two-console sprinkler units of the DDA-100MA family and subsequent models (DDA-100 VX, DDA-100V), only watering, including sprinkling, during the dry season does not relieve stress from plants.

The nozzles of the sprinkler apparatus are also known, comprising a housing, a deflector fixed to the rack and a nozzle with a central hole, in which, in order to provide the possibility of regulating the rain intensity during irrigation, the nozzle is made of a shape memory material with the central hole reduced from a larger diameter to a smaller one when heated moreover, the rack is made of the same material as the nozzle, with a mass equal to the mass of the nozzle; it is equipped with a power source and adjustable resistance, while the stand and nozzle are electrically connected and connected to the power source through adjustable resistance (SU, copyright certificate 1616711 A1, M.cl. ⁵ V 05 V 1/18, 1/26. Nozzles sprinkler apparatus. / VB Kovshevatsky (USSR). - 4638144 / 30-05; Stated 01/13/1989; Publish. 12/30/1990, Bull. 48. // Discoveries. Inventions. - 1990. - 48).

 The described nozzle can be used to change the diameter of artificial rain drops and the rate of watering. But these changes are ineffective when cultivating crops in the arid zone.

The closest technical solution to the claimed object is a sprinkler-spraying unit, including a basic tractor with a farm, a pump, a farm water supply belt with sprinkler nozzles, and an additional pump and a pipeline with centrifugal sprinklers, according to the invention, the water supply belt of the farm is equipped with a compressor and pipes with with cranes it is connected to the water outlets of centrifugal sprinklers, while an additional meter is connected to the water intake line of the additional pump bone for a surfactant (RU, patent 21730543 C1, IPC ⁷ A 01 G 25/09, A 01 M 7/00. Sprinkler-spraying unit. / VKKubin, K.V. Huber, G.P. Lampert, M.Yu. Khrabrov et al. (Russian Federation). - 99127930/13; Declared 12/30/1999, Publish. 09/10/2001, Bull. 25. / Inventions. Utility models. - 2001. - 25). We have accepted this unit as the closest.

 The disadvantage of the described sprinkler-spraying unit is the impossibility of applying more effective surfactants than foaming agents PO-1 and PO-6. It should also be noted the unjustified complication of additional devices for double-console sprinkler units, their low technical and operational reliability.

 The invention consists in the following.

 The task to which the invention is directed is to create an optimal thermal regime for the cultivation of crops in irrigated agriculture during the dry season.

 The technical result is an increase in the technical and operational reliability of the sprinkler-spraying unit.

 The specified technical result during the implementation of the invention is achieved by the fact that in a known sprinkler-spraying unit, including a base tractor with a farm, a pump, a farm watering belt with sprinkler nozzles, a compressor, a surfactant tank, an additional pipe placed equidistantly on the farm's watering belt and sprinklers hydraulically connected to the tank by an additional pipeline; according to the invention, the compressor equipped with a drive is connected by a pneumatic hose to a receptor mounted on the bottom of the surfactant tank, the tank is equipped with a lid, a manometer, a safety inlet valve, a remote control valve connected to an additional pipe and a valve hydraulically connected to the pressure head of the pump, and each nozzle is combined with a sprayer , the nozzle body and the sprinkler body are made as a single part, the nozzle of the sprinkler is directed tangentially to the drop-forming blade of the nozzle, while in the nozzle of the sprinkler installed with the possibility of adjusting the position of the nozzle at the end of the screw equipped with a handwheel, in addition, the cavity of the nozzle of each sprayer is connected to an additional pipeline by means of a compensator.

 Due to the fact that the container for the surfactant is equipped with a barborator, and the sprinkler body and the nozzle body are made as a single part, the nozzle of the sprinkler is oriented tangentially to the droplet-forming blade of the nozzle, the above technical result is achieved.

 The invention is illustrated by drawings.

 In FIG. 1 shows a flow chart of a sprinkler-spraying unit.

 In FIG. 2 - section AA in figure 1, a transverse vertical section of a water supply belt, an additional pipe for supplying a surfactant and a combined nozzle with a spray.

 In FIG. 3 - section B-B in figure 1, a horizontal section of a container for a surfactant with a barborator, nipple and valve with remote control mounted in it, a nipple and valve for supplying water from the pressure line of the pump and a nipple with a flexible sleeve for supplying compressed air from the compressor.

 In FIG. 4-7, respectively, sections BB, GD, DD and EE of FIG. 3, the positions of the slots along the length of the barborator sleeve for distributing the flows of compressed air in the tank for surfactant.

 In FIG. 8 is a section FJ in FIG. 1, a longitudinally-vertical section of a safety inlet valve.

 Information confirming the possibility of implementing the claimed invention are as follows.

 The sprinkler-spraying unit (see Fig. 1) contains a base tractor (DT-75D-XC4 or DT-75N-XC4 or DT-75ML-XC4 brands and, due to its popularity, is not shown on the technological scheme) with farm 1, pump 2 with a floating valve 3 and a suction communication 4, a water supply belt 5 of the farm 1, a compressor 6, a surfactant tank 7, an additional pipe 8, sprinklers 9 and sprinkler nozzles 10. The sprinkler nozzles 10 are appropriately placed by means of nipples 11 on the water supply belt 5 (see figures 1 and 2). The sprinklers 9 are hydraulically connected through an additional pipe 8 and shut-off valves, borrowed for the water supply network as standard (purchased) products.

 A compressor 6 equipped with a drive is connected by a pneumatic hose 12 to the barborator 13. The barborator 13 is mounted on the bottom of the tank 7 for a surfactant. As a surfactant, for example, carmidol, a higher fatty alcohol with urea (urea), is used. The compressor drive 6 is made in the form of a hydraulic motor 14. The cavities of the hydraulic motor 14 are hydraulically connected to the hydraulic distributor section of the base tractor. The hydraulic motor is controlled by the handle of the hydraulic well by the tractor operator from the cab of the base tractor. The compressor 6 with a hydraulic motor 14 is kinematically connected by a gear clutch 15.

 The tank 7 is equipped with a cover 16, a pressure gauge 17, a safety inlet valve 18, a remote control valve 19, a valve 20 hydraulically by means of a pipe 21 connected to the pressure sleeve 22 of the pump 2.

 In the cavity of the tank 7 for surfactant installed ribs 23 (see figure 3). This allows you to create in the tank 7 operating pressure up to 1.0-1.5 MPa. Between the lid 16 of the tank 7 and its neck is installed a sealing gasket made of elastic technical rubber. This achieves the corresponding pressure in the cavity of the tank 7 without leakage of compressed air. The additional pipeline 8 is made of high density polyethylene and is connected to the water supply belt 5 by means of clamps 24 with screw pairs (see figure 2). An additional pipe 8 with a valve 19 is connected to an intermediate pipe 25 of the same section and of the same material (see figures 1 and 3).

The barborator 13 of the tank 7 is made in the form of a U-shaped elbow from a rubberized sleeve. On the surface of the sleeve, slots 26, 27, 28 and 29 are made (see Figs. 4-7). Slots 26-29 on the surface of the sleeve are made with equal pitch. In the initial position, the walls of the slots 26-29 close. Each subsequent slot 28 to the previous slot 27 in a plane perpendicular to the axis of the knee is rotated 90 ^° (see FIGS. 5 and 6). The free end of the U-shaped elbow of the barborator 13 is provided with a plug 30 (see figure 3). The ends of the rubberized sleeve of the U-shaped elbow of the barborator 13 are connected to the nipple 31 of the tank 7 and the stopper 30 by means of the lock rings 32.

 The safety inlet valve 18 (see FIGS. 1 and 8) is connected to the end wall 34 or to the side wall of the container 7 by means of a T-shaped nipple 33 and is equipped with a ball valve 35 and an elastic membrane 36. The ball valve 35 is mounted on the movable piston 37 and spring-loaded with respect to the piston 37 and relative to the threaded cover 38. The threaded cover 38 is screwed onto the outlet 39 of the nipple 33. Radial holes 40 are made in the threaded cover 38 to connect the cavity of the container 7 with the atmosphere at a compressed air pressure of more than 1.0 MPa. Under the cover 38, an elastic element is installed in the form of a twisted cylindrical compression spring. At the second end of the nipple 33, remote from the end wall 34, a membrane 36 is mounted by means of a threaded cover 41. The membrane 36 is provided with outlet openings 42 offset from its axis of symmetry. The membrane 36 is pressed by the threaded cover 41 and its ribs 43 to the end cut of the nipple 33. The threaded cover 41 is screwed onto the threaded portion of the nipple 33. Said cover 41 has an axial channel 44 interfaced with the membrane 36.

 Each nozzle 10 is combined with a sprinkler 9. The body of the nozzle 10 and the body of the sprinkler 9 are made as a single part. The nozzle body 10 with its threaded portion is screwed into the nipple 11 of the water supply pipe 5. The position of the nozzle 10 in the threaded nipple 11 is fixed by a lock nut 45. The geometric axis 1-1 of the nozzle 46 of the sprayer 9 is directed tangentially to the working surface 47 of the droplet-forming vanes 48 (see figure 2) nozzles 10. The nozzle 49 of the nozzle 10 is directed normally to the axis of the nozzle 46 of the sprayer 9. In the nozzle 46 of the sprayer 9 is installed with the possibility of adjusting the position of the nozzle 50 at the end of the screw 51. The nozzle 50 and the screw 51 are equipped with a handwheel 52. The cavity of the nozzle 46 is scattered the sprinkler 9 is connected to the additional pipe 8 by means of a compensator 53. The union nuts 54 and 55 of the compensator 53 are connected to the nipple 56 of the additional pipe 8 and the drive 57 of the combined housing of the sprayer 9 and nozzle 10. This achieves high mounting ability of the additional units to the commercially available two-console sprinkler unit ДДА- 100В OJSC "Irrigation equipment" (Volgograd, Russian Federation).

 Sprinkler-spraying unit operates as follows.

 We consider the operation of the unit using three examples, the most commonly used options for the operation of the sprinkler-spraying unit when cultivating crops in irrigated agriculture.

 Example 1. When the unit is operating in the irrigation mode, water from an open irrigator in the irrigated area with a floating valve 3 enters the pump cavity 2 through the suction line and pressurizes the pressure hose 22. From the hose 22, the water flow is divided into channels and sent to the farm’s water supply belt 5 1 (see figure 1). From the belt through the nipples 11, water under pressure enters the nozzle 49, narrows and at a high speed hits the working surface 47 of the drop-forming blade 48 of the nozzle 10. The flow of irrigation water is first formed into a thin water layer, and then, when it encounters air, splits into small drops, which settle on the surface of the soil and leaf-stem surface of cultivated plants. When the unit moves, the surface of the irrigated area is evenly moistened. When the sprinkler-spraying unit is operating in the drip irrigation mode, the valve 20 and the crane 19 are closed.

 Example 2. When combined irrigation sprinkler-spraying unit operates as follows. When the pump 2 is running, the valve 20 is opened. Water from the pressure hose 22 is pressurized through the valve 20 and the pipeline 21 enters the tank 7. When filling its volume into 1 / 2-3 / 4 parts, the hydraulic motor 14 is turned on by the handle of the base tractor hydraulic distributor and, therefore, the compressor 6. The air from the compressor 6 along the sleeve 12 enters the cavity of the barborator 13 and fills the free space in the tank 7 through the slots 26-29 of the U-shaped elbow of the flexible sleeve.

 Compressed air presses on the mirror of water in the tank 7. When opening the valve 19, water under pressure up to 1.0 MPa through the intermediate pipe 25 is sent to an additional pipe 8 (see figure 1, 4-7).

 From an additional pipeline 8, water under pressure through a nipple 56, a compensator 53 and a bend 57 enters the cavity of the nozzle 46. Using a nozzle 50, turning the screw 51 with the handwheel 52, each sprayer is individually individually pre-regulated for the appropriate quality of the water spray. Water with a thin stream and under high pressure is divided into droplets with a diameter of 100-300 microns and in the form of fog tangentially to the rain torch from the nozzle 10 is directed to the leaf surface of the plants. Drops of water from the nozzle 10 are deposited on the leaves and soil, and finely dispersed particles of water are in suspension and thereby reduce the temperature of the air in the surrounding space and the plants themselves, protecting them from burns during dry weather (see figures 1 and 2).

 Example 3. At high air temperatures and low humidity, the active photosynthetic activity of plants ceases and stressful conditions are created for their vital activity. To reduce the negative effects of high temperature and low humidity, conventional and fine sprinkling is used using surfactants produced by the domestic industry either in the form of solutions, or in the form of a paste, or in the form of a powder, or in the form of a finished product (emulsion, etc.). p. solutions). As one of them, carmidol is used. The rate of introduction of each of them is set for each specific case, taking into account the requirements of the environment and the condition of the plants.

 With the neck of the container 7 and the cover 16 removed, the desired surfactant is placed in the cavity of the container 7. The cover 16 is tightly screwed onto the neck of the container 16. When the valve 20 is turned on, water from the pressure hose 22 enters through the pipe 21. As the container 7 is filled, 3/4 of its volume is closed, the valve 20 is closed. The hydraulic motor 14 is turned on and the compressor 6 is put into operation. Compressed air flows through the pneumatic hose 12 to the barborator 13. When air flows out through slots 26-29 on the U-shaped barborator’s elbow with multidirectional air flows, the surfactant (carmidol) is intensively mixed with water, a solution of equal concentration in the entire volume. At the same time, the working pressure increases in the tank 7, the value of which is fixed by a pressure gauge 17. With an increase in the working air pressure above the permissible value, the safety inlet valve 18 enters into operation.

 With increasing pressure, air presses on the movable piston 37 and the ball valve 35. When the ball valve 35 is raised up due to its lower weight and larger surface in contact with air, compressing the coils of the elastic element (see Fig. 8), an opening opens in the piston 37 and the excess air through the hole 40 in the cover 38 is discharged into the atmosphere. When the pressure decreases under the action of the compressed turns of the spring, the ball valve returns to its original position.

 When the valve 19 is opened, the surfactant solution passes through the intermediate pipeline 25 from the tank 7 into the cavity of the additional pipeline 8.

 Under pressure up to 1.0 MPa, the liquid solution from the pipeline 8 as previously described enters the cavity of the nozzle 46 of the sprayer 9. The solution of the surfactant at the exit from the nozzle 46 breaks into the air into droplets with a diameter of 100-300 μm and settles into droplets in a finely divided state artificial rain created by a drop-forming blade 48 in each nozzle 10.

 Surfactant on raindrops forms a monomolecular layer, significantly reducing the intensity of their evaporation. This leads to a longer conservation of moisture on the leaf surface of plants compared to conventional sprinkling, the slow evaporation of which creates a favorable thermal regime of sowing and avoids the negative impact of dry winds on plants.

 Additionally, herbicides, growth stimulants, anti-respirators, chemical meliorants, fertilizers and other aqueous solutions are used as substances introduced by the sprinkler-spraying unit according to the technology described above.

 Thus, the proposed irrigation and spraying unit has wider functionality than the closest analogue and allows you to irrigate crops in several modes: conventional irrigation, a combination of conventional and fine irrigation, a combination of conventional and fine irrigation using surface-active and other substances .

Claims (9)

1. Sprinkler-spraying unit, including a basic tractor with a farm, a pump, a farm water supply belt with sprinkler nozzles, a compressor, a surfactant tank, an additional pipe placed equidistantly on the farm water supply belt, and sprinklers hydraulically connected to the tank with an additional pipe, characterized in that the compressor equipped with a drive is connected by a pneumatic hose to a barborator mounted on the bottom of the surfactant tank, m the tank is equipped with a cover, a manometer, a safety inlet valve, a remote control valve connected to an additional pipeline and a valve hydraulically connected to the pressure head of the pump, and each nozzle is combined with a sprayer, the nozzle body and the sprayer body are made as a single part, the nozzle of the sprayer is directed tangentially to the droplet-forming blade of the nozzle, while in the nozzle of the sprinkler is installed with the possibility of adjusting the position of the nozzle on the end of the screw provided with max chkom, besides the cavity of each sprinkler is connected with an additional conduit through the compensator. 2. The unit according to claim 1, characterized in that the compressor drive is made in the form of a hydraulic motor hydraulically connected to the hydraulic distributor section of the base tractor, while the compressor and the hydraulic motor are kinematically connected by a gear clutch. 3. The unit according to claim 1, characterized in that in the cavity of the tank for surfactant installed ribs. 4. The unit according to claim 1, characterized in that the barborator is made in the form of a U-shaped elbow from a rubberized sleeve, on the surface of which are made equal intervals of 15-25 mm long slots and each subsequent slot to the previous slot in a plane perpendicular to axis of the knee, rotated 90 °. 5. The assembly according to claim 4, characterized in that the free end of the U-shaped elbow of the barborator is equipped with a plug. 6. The unit according to claims 4 and 5, characterized in that the ends of the rubberized sleeve of the U-shaped knee are connected to the tank nipple and the stopper by means of retaining rings. 7. The unit according to claim 1, characterized in that between the lid of the tank and the neck of the tank is installed a sealing gasket. 8. The unit according to claim 1, characterized in that the additional pipeline is made of high density polyethylene and is connected to a water supply belt by means of clamps with screw pairs. 9. The unit according to claim 1, characterized in that the safety-inlet valve through a T-shaped nipple is connected to the end or side wall of the tank and is equipped with a ball valve mounted on a movable piston in the outlet and spring-loaded relative to the piston and the threaded cap provided with holes for connection with the atmosphere, and at the second end of the nipple a membrane is installed, equipped with outlet openings displaced from its axis of symmetry, while the membrane is pressed by a threaded cap screwed on the threaded part of the nipple, and -mentioned cover has an axial passage conjugate with a membrane.

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