RU192216U1 - FINE Pneumohydraulic Humidifier - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to the technique of irrigation with finely dispersed and drip irrigation, and can be used for humidification and artificial irrigation of crops. In the housing of a finely divided pneumohydraulic humidifier, the channels are made crosswise, along the axis of the body there is a central channel connected from opposite ends to channels of the nozzle for supplying water and a nozzle for supplying air through the cavity, and chambers are placed in the middle of the central channel mixing, connected to the discharge channel, passing along the axis perpendicular to the Central channel, while the parts of the Central channel in contact with the mixing chamber, have a cone-shaped narrowing, which are adjustable, due to throttle devices, consisting of a screw with a rod and a cone-shaped tip, and ring slots for oncoming water and air supply and the discharge channel of the housing from one end are equipped with an output nozzle with an inlet cone from the side of the displacement chamber and a cylindrical inlet narrowed a method passing into a channel with a two-way screw-shaped recess and an exit cone, while the mixing chamber is equipped with a disperser of fine-mesh cylindrical mesh with a diameter smaller than the diameter of the discharge channel with openings opposite the annular slots of water and air supply, and directed by the end face of the umbrella-shaped into the inlet cone of the outlet nozzle while the position of the dispersant and the volume of the mixing chamber are regulated, and the tip of the throttle water supply device is equipped with a guide. atm is to simplify the structure, increasing the operational reliability of the quality of atomization of irrigation water into small droplets, ensuring efficient regulation of artificial rain and reducing energy drops sizes. 1 ill.

Description

The utility model relates to agricultural engineering, in particular, to the technique of irrigation with fine and drip irrigation, and can be used for wetting and artificial irrigation of crops.

A known method and device for water-air atomization of a liquid by directedly affecting a liquid volume with gas under pressure, gas is passed through a nozzle in the direction of liquid supply before being applied to a liquid [Patent RU 2011426, C1 B05B 1/08 Pulse liquid atomization method and device for its implementation / Igolkin A.I., Tomaev V.K., Pavlov VS, Kozlov V.I. No. 5062952/05, Decl. 09.24.1992, Publ. 04/30/1994]. In the device, a chamber for compressed gas and a container for liquid with an outlet opening, separated by a shut-off valve, are communicated through a nozzle during operation.

The disadvantage of this technical solution is the complexity of its design, which consists in the presence of a hydropneumodynamic device with a compressor and an air flow breaker, which is necessary to supply portions of compressed air to water to form a fine stream, its low operational reliability when working with small volumes of the liquid phase and low gas supply pressures phase.

Known vortex nozzle containing a housing with a screw made solid, containing guides on the outer surface and a spray disk located coaxially in the lower part of the housing, and located in the upper part of the housing fitting with a cylindrical hole for supplying fluid connected to the diffuser, axisymmetric housing and fitting , the screw is pressed into the housing with the formation of a conical chamber located above the screw coaxially to the diffuser and connected in series with it [Patent RU 2570441, B05B 1/34 Vortex nozzle kochetova / Kochetov O.S. No. 2014138366/05, Ann. 09/23/2014, publ. 12/10/2015, Bull. No. 34]. Spraying the fluid flow occurs when it is fed through a cylindrical hole into the diffuser, and from it into the conical chamber, from which it is supplied under pressure to the external screw cavity of the screw for turbulization, and at the outlet of the nozzle the rotating torch interacts with the spray disk. The device allows the spraying of water and solutions.

Its disadvantage is the design complexity, low operational reliability in the industrial conditions of agricultural irrigation, the lack of technical solutions for using the energy of the air phase to increase the degree of atomization of the liquid, as well as regulating the size of the drops of artificial rain.

Closest to the proposed technical essence is the known nozzle device for dust suppression, comprising a housing, a channel for supplying gas, a nozzle located on it along the same axis, and a cavity with liquid inlet and outlet channels. An external thread is made on the nozzle body for tightening the adjusting nut with an inner ledge and an annular rubber seal. [Patent RU 2446021, B05V 7/12 Injector for dust suppression / Pashkevich M.A., Smirnov Yu.D., Ivanov A.V., Dobrynin O.S., Bulbashov A.A. No. 201034137/05, Declaration 08/13/2010, Publ. 03/27/2012, Bull. No. 9]. During the operation of the device, liquid under pressure through the channel through the radial groove and the annular gap enters the mixing chamber, where compressed air is simultaneously supplied. In the mixing chamber, the liquid is sprayed, and then the resulting air-water mixture is sent to the diffuser. The efficiency of the device for dispersing the liquid phase is ensured by the position of the nozzle relative to the nozzle for supplying liquid.

A disadvantage of the known device when producing artificial rain is the need for its operation to supply the initial working phases for mixing air and liquid at high pressures, low operational reliability during the usual sprinkling of a wide range of crops under production conditions, and increased demands on the quality of the initial liquid phase.

These disadvantages are due to the design features of the device in which air is used as the main active phase, which is supplied sequentially to the mixing chamber and the diffuser through the nozzle of the central axial channel, the need to maintain air pressure at a given value, and the liquid enters the mixing chamber and the diffuser through the radial recess and adjustable from 0.5 mm ring gap.

Therefore, the purpose of the proposed utility model is to expand the technological capabilities of a finely dispersed pneumohydraulic humidifier in the quality of spraying irrigation water, reduce moisture consumption for total water consumption, and also provides operational control of the size of artificial rain drops, increase operational reliability and reduce energy costs.

To solve the tasks, a finely divided pneumohydraulic humidifier is proposed, comprising a housing, an air supply channel, a fluid supply channel, a fluid cavity, threads on the housing, an adjusting nut, an annular slot, a mixing chamber, a nozzle according to the proposed utility model in a pneumatic-hydraulic humidifier case the channels are made crosswise, along the axis of the housing there is a central channel connected at opposite ends to the channels of the nozzle for supplying water and the nozzle for supplying air through axes, and in the middle of the central channel there is a mixing chamber connected to the discharge channel, which runs along the axis perpendicular to the central channel, while the parts of the central channel in contact with the mixing chamber have cone-shaped constrictions, in which adjustable, due to throttle devices consisting of a screw, are created with a rod and a cone-shaped tip, and the annular slots for the oncoming water supply and air supply and the discharge channel of the housing from one end are provided with an outlet nozzle with an inlet cone with the orons of the displacement chamber and a cylindrical inlet narrowing passing into a channel with a double-helical recess and an outlet cone, while the mixing chamber is equipped with a cylindrical fine mesh mesh with a diameter smaller than the diameter of the discharge channel with openings opposite the annular water and air supply slots and an umbrella-shaped end in the input cone of the output nozzle, while the position of the dispersant and the volume of the mixing chamber are regulated, and the tip of the throttle device for water supply equipped with a guide.

Comparative analysis with the prototype shows that in the case of the inventive fine-dispersed pneumohydraulic humidifier there is a central channel connected at opposite ends to the channels of the nozzle for supplying water and a nozzle for supplying air through the cavity, and in the middle of the central channel there is a mixing chamber connected to the discharge channel passing along axis perpendicular to the Central channel, while the parts of the Central channel in contact with the mixing chamber have a cone-shaped narrowing, in which adjustable, due to throttle devices, consisting of a screw with a rod and a cone-shaped tip, ring slots for oncoming water supply and air supply to the mixing chamber, which is equipped with a disperser of a fine mesh cylindrical mesh with a diameter smaller than the diameter of the discharge channel with openings opposite the ring slots, are created water and air supply and an umbrella-shaped directed end in the inlet cone of the outlet nozzle, while the position of the dispersant and the volume of the mixing chamber are regulated, and the tip The nickname of the water supply throttle is equipped with a guide.

The primary mixing of the air-water mixture was carried out in a dispersant, the chamber of which is fenced with a fine mesh, which helps to eliminate the “dead zones” of the mixing chamber, increase the use of kinetic energy of flows and creates conditions for increasing the uniformity of the dispersion of the water atomization process.

At the next stage, the mixture of water and air is sent to the discharge channel of the housing, which is equipped at one end with an outlet nozzle with an inlet cone on the side of the displacement chamber and a cylindrical inlet narrowing that passes into the channel with a double-helical depression and an outlet cone.

Known designs of sprinklers for fine humidification, including cone-shaped annular gaps, solve either other technical problems or require excess air pressure to function, whereas in the claimed technical solution, the process of fine dispersion of water is regulated by the flow of water and air phases, the volume of the mixing chamber, the position of the dispersant chamber and output nozzle.

Thus, the claimed finely divided pneumohydraulic humidifier meets the criterion of "novelty."

The essence of the utility model is illustrated by graphic material, which shows a schematic representation of a finely divided pneumohydraulic humidifier: in FIG. 1 is a side view. Fine pneumohydraulic humidifier contains a housing 1 with cross-shaped channels. Along the axis 2 of the casing, a central channel is made, connected at opposite ends with a water supply channel 3 of the nozzle 4 through the chamber 5 and an air supply channel 6 of the nozzle 7 through the chamber 8. In the middle of the central channel there is a mixing chamber 9 connected to the discharge channel passing along axis 10 perpendicular to the central channel. The parts of the central channel in contact with the mixing chamber have cone-shaped constrictions, in which adjustable annular slots are created for water supply 11 and air supply 12. The water supply slit is regulated by thread 13 with a throttle device consisting of a screw 14 with a rod 15 and a conical tip 16 s with the guide 17. The position of the throttle screw for regulating the water supply is fixed with a lock nut 18. The air supply slot is regulated by thread 19 with a throttle device consisting of a screw 20 with a rod 21 and a conical tip 22. dix throttle air control screw lock nut 23 is fixed.

The unloading channel of the casing from one end is equipped with an output nozzle 24, including an inlet cone 25, an inlet cylindrical narrowing 26, passing into the channel 27 with a two-way screw recess 28 and an outlet cone 29. The outlet nozzle is screwed into the casing 30 and fixed with a lock nut 31. On the opposite on the side of the outlet nozzle of the discharge channel, a nut 33 is screwed into the housing through a thread 32, in the hole of which an adjustment screw 35 is installed through a thread 34 with a lock nut 36 of the position of the dispersant 37 made of a fine mesh cylinder eskoy shape with a diameter smaller than the diameter of the discharge channel 38 and with openings 39 opposite annular slits water supply and air directed end face forms zontikoobraznoy 40 into the input cone of the outlet nozzle.

Fine pneumatic-hydraulic humidifier works as follows. The water flow under pressure enters the channel 3 of the fitting 4, screwed into the housing 1 into the cavity 5. From the cavity, water enters along the rod 15 into an annular gap 11 formed between the conical tip 16 and the conical narrowing of the channel at its entrance to the mixing chamber 9. Water flow in a cone-shaped annular slit acquires a tubular film shape, which interacts with the guide 17 and forms a hollow fan in the form of a cone-shaped funnel, which is guided through the opening 38 into the dispersant 37 of the mixing chamber 9. The thickness of the water film they are threaded by a throttle device 13, consisting of a screw 14 with a rod 15 and a conical tip 16 with a guide 17 and fixed with a lock nut 18. The air flow flows similarly through the channel 6 of the fitting 7 into the cavity 8, from where it flows along the rod 21 into an annular gap 12 formed between tapered tip 22 and tapered narrowing of the channel at the entrance to the mixing chamber. The annular slot 12 of the air supply is regulated by thread 19 with a throttle device consisting of a screw 20 with a rod 19 and a cone-shaped tip 22, the position of the throttle screw for regulating the air supply is fixed with a lock nut 23. From the annular slot, air is directed through the opening 39 into the dispersant 37 of the mixing chamber 9 and distributed over to the fan of the flow of water moving towards it destroys it in the dispersant 37. The formed air-water mixture is pressed to the end face of the umbrella-shaped form 38 of the dispersant 37 and is sent first to the input yc 25, rolling in the cylindrical constriction filar 26 of the outlet nozzle 24, is accelerated and enters the channel 27 with a double helical spiral recess 28 where swirl and partially enters the outlet cone, further dispersing with a differential pressure. The function of the deflector is performed by the environment - air - according to the principle of inkjet apparatus.

The position of the dispersant is adjusted with a screw 35 to fix the position of the lock nut 36. The distance from the output part 40 of the dispersant 37 to the input cone 25 of the output nozzle 24 and the volume of the mixing chamber 9 are regulated by screwing the output nozzle 24 along the thread 30 and fixing the position of the lock nut 31.

When water and air were injected under pressure, the degree of regulation of liquid atomization was achieved by changing the size of the cone-shaped annular gaps for water supply 11 and air supply 12 coaxially with the channel of the central axis 2, dispersant 37, mixing chamber 9 and outlet nozzle 24. Increasing the uniformity of mixing of the air-water mixture also carried out by adjusting the position of the dispersant 37 made of fine mesh in the mixing chamber 9 and the output nozzle 24 containing the inlet cone 25, the inlet cylindrical narrowing 26, channel with a double helical recess 28 and the output cone 29.

When spraying water, the use of a helical spiral swirl in the channel of the outlet nozzle slightly increases the hydraulic resistance of the device, the length of the formed liquid-air torch is increased with a decrease in surface tension and viscosity of the liquid. With an increase in surface tension and viscosity, the diameter of droplets formed during the decay increases.

A prototype of the proposed finely divided pneumatic-hydraulic humidifier was tested in the soil channel and in the field of the experimental farm of the Academy of Bioresources and Nature Management of the Federal State Autonomous Educational Institution Higher Educational Institution named after IN AND. Vernadsky "village Agrarian Simferopol district. The sustainable production of artificial rain during water spraying has been confirmed, the fundamental possibility of controlling the dispersion of the sprayed liquid phase and the use of a device for finely dispersed humidification and irrigation of crops has been established.

In a prototype of a finely dispersed pneumohydraulic humidifier, design details are unified. The length of the housing along the central axis is 104 mm, the width of the housing along the axis of the discharge channel is 52 mm, the diameters of the channels of the water and air supply fittings in the cavity are 4 mm, the distance between the axes of the channels is 66 mm, the diameters of the annular openings of the water supply channel d _dd and air supply d _vz correspond according to the formula: d _vd / d _vz = 1.5

The taper of the holes of the central channels is 40 °, the taper of the tips is in the range of 37 ° -40 °. The thread of the throttle adjusting screw is M10, the thread in the discharge channel is M20, the diameter of the water guide is 3 mm, in the output nozzle channel there are cut helical double-entry recesses of 0.6 mm in a spiral having a coil pitch of 4.9 mm.

The use of a utility model expands the technological capabilities of a finely dispersed pneumohydraulic humidifier in the quality of spraying irrigation water, reduces moisture consumption for total water consumption, and also provides operational control of the size of artificial rain drops, increased operational reliability and reduced energy costs.

The set of essential features of the utility model allows to achieve a technical result, as evidenced by the existing following causal relationship. The implementation in the housing of the inventive fine-dispersed pneumohydraulic humidifier of the Central channel, connected at opposite ends to the channels of the nozzle for supplying water and a fitting for supplying air through the cavity, and in the middle of the Central channel, the placement of the mixing chamber connected to the discharge channel, passing along the axis perpendicular to the Central channel, while the parts of the central channel in contact with the mixing chamber have cone-shaped constrictions in which adjustable, due to throttle devices, are created TV, consisting of a screw with a rod and a cone-shaped tip, annular slots for oncoming water supply and air supply to the mixing chamber, which is equipped with a disperser of fine mesh cylindrical mesh with a diameter smaller than the diameter of the discharge channel with openings opposite the ring air and air supply slits and directed by the end umbrella-shaped in the inlet cone of the outlet nozzle, while the position of the dispersant and the volume of the mixing chamber are regulated, and the tip of the throttle water supply device is provided with a direction elem.

In general, these distinguishing features and properties of a finely dispersed pneumohydraulic humidifier expand the technological capabilities of the irrigation process while reducing energy consumption with increasing relative humidity, lowering the temperature of the leaf surface, protecting plants from atmospheric drought, promoting photosynthesis and increasing crop yields.

Claims (1)

A finely dispersed pneumohydraulic humidifier comprising a housing, an air supply channel, a fluid supply channel, a fluid cavity, a thread on the housing, an adjusting nut, an annular slot, a mixing chamber, a nozzle, characterized in that the channels in the housing are made crosswise along the axis of the housing the central channel connected at opposite ends with the channels of the nozzle for supplying water and the nozzle for supplying air through the cavity, and in the middle of the central channel there is a mixing chamber connected to the discharge chamber bending along the axis perpendicular to the central channel, while the parts of the central channel in contact with the mixing chamber have cone-shaped constrictions, in which are created adjustable, due to throttle devices, consisting of a screw with a rod and a cone-shaped tip, and ring slots for oncoming water supply and air supply and the discharge channel of the housing from one end are equipped with an output nozzle with an inlet cone from the side of the displacement chamber and a cylindrical inlet restriction passing into a double-entry channel an indented recess and an outlet cone, while the mixing chamber is equipped with a disperser of a fine mesh cylindrical mesh with a diameter smaller than the diameter of the discharge channel, with openings opposite the annular slits of water and air supply and an umbrella-shaped end directed to the inlet cone of the outlet nozzle, while the position of the dispersant and the volume mixing chambers are regulated, and the tip of the throttle water supply device is equipped with a guide.

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