RU2681449C1 - Injector-drop bottle for a system of drop irrigation of forest and orchard crops - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agricultural reclamation. Injector drop bottle for drip irrigation system of forest and horticultural crops includes a split body with a water conducting channel. Injector drop bottle is mounted on irrigation pipe. Walls of the conoidal nozzle are connected to the inner cavity of the irrigation pipe along the radius of curvature. Conoidal nozzles have a threaded tip. Nozzle tip is connected with the threaded tip of the flexible pipe. Washer with a calibrated bore is installed between the end part of the nozzle and the threaded tip. Flexible pipe of threaded tip is connected to the injector. Injector has a water outlet holes. Outlet holes are made on parabolic curves. Parabolas are turned upwards. Lower part of the injector has a taper. Internal cavity of the irrigation pipe is connected to the water outlet holes by a water conducting channel. Washer with a calibrated bore is replaceable depending on the flow rate specified.EFFECT: provides uniform moisture in area and depth; increases operational reliability and quality of watering.1 cl, 1 dwg

Description

The invention relates to agricultural reclamation, in particular to drip irrigation of forest, garden wood, etc. plantations placed during planting linearly.

A device for drip irrigation is known, including a housing with inlet and outlet openings and a float control element located in it, which, in order to increase the uniformity of irrigation, is equipped with an additional float control element located inside the main one and having a T-shaped through hole and a telescopic pipe connecting the mentioned hole with the outlet of the housing (SU, copyright certificate 782766, M.cl. A01G 25/02).

Despite the fact that the device is equipped with an additional float control element, water droplets falling from the outlet opening, sized by size, spread over the surface of the irrigated field. Only at high irrigation rates and high productivity of the device (up to 8 l / h), irrigation water soaks the upper soil layer to a depth of 0.2-0.3 m. With drip irrigation, the root system of fruit stands and grapes is formed in the upper layer. For conditions in the South of the Russian Federation with a sharply continental climate and snowless winters, the root systems of tree stands partially or completely die (3-4 years in frequency).

A known injector for drip irrigation, including a water outlet and a porous body, in which, in order to improve the reliability of irrigation and simplify the design, it is equipped with a pressure regulator made in the form of a replaceable porous element (SU, copyright certificate 812237, M.cl. ³ A01G 25 / 02).

Despite the fact that the porous body can be buried in the soil to a depth of 0.6-0.7 m, the moisture distribution from it goes in the radial directions, and most of the water goes into the upper soil layer. The sucking roots of the fruit plantations, and after them the skeletal roots, are carried away and oriented in zones with sufficient soil moisture reserves. The described injector does not contribute to the formation of rod and fibrous root systems of fruit stands with the required linear (strip) orientation. During inter-row cares, both in schools and nurseries, and on production plantations, laterally oriented skeletal and sucking roots of fruit stands are mechanically damaged by the working bodies of disk harrows, plow cultivators, cultivators, slit-cutters and digging machines or staples.

Known injector for drip irrigation, including a water outlet and a porous body, providing an adjustable water supply and equipped with a pressure regulator made in the form of a replaceable porous element. (SU, copyright certificate No. 812237. (51), M. Cl ³ A01G 25/02)

The disadvantage of this injector is the uneven distribution of precipitation in the humidification zone both in depth and in area. In addition, the injector has low reliability and short service life.

Known dropper, including a collapsible chamber with a fitting and an injector in the form of a pin with stiffening ribs converging to the tip of the pin, the camera is located in the upper part of the injector and is equipped with a water dispenser and a hollow permeable rod placed in the cavity of the pin, while the lower part of the rod is made with a pointed end, and in the pin between the stiffening ribs water-conducting channels are made, communicated with the cavity of the pin, while the rod is made of porous material in the form of a hollow body of circular cross section, and the dispenser under chi water formed as a hollow float with oppositely arranged needles. (RU, patent for invention No. 2202879, IPC ⁷ A01G 25/02. 2003)

The disadvantages of the known dropper are the design complexity, low operational reliability due to the possibility of overgrowing of the porous material with phytoplankton, the lack of the ability to control soil moisture by the depth of soaking.

A dropper is known, including a body mounted in the humidifier hole and a regulating element installed therein, made in the form of a float valve with one upper shutter needle in the form of a pyramid on the upper surface of the valve and oppositely oriented shutter needles on the bottom of it, mating in the initial position of the float valves with outlets in the body of the humidifier, and the humidifier has the shape of a U-shaped elbows, the inner surface of each is equipped with labyrinth channels in the form of a series REGARD without overlapping protrusions and recesses, wherein the U-shaped knee formed by combining parts of the core of permeable material disposed in the cavity of the injector (RU, patent №2214087, IPC ⁷ A01G 25/02).

The disadvantage of the described dropper is the low operational reliability due to overgrowth of the holes of the permeable material with phytoplankton, as well as the complexity of the design.

A known injector for subsurface moistening, comprising a detachable casing with a water channel, the inner cavity of the casing is provided with a helical groove with conical holes on its surface, connecting the helical groove with the outer surface of the casing, and the diameter of the conical hole mating with the groove is smaller than that of the outer the surface of the housing (RU, patent for the invention No. 2251254, C1 IPC A01G 25/02).

The disadvantages of this injector include clogging of conical holes with compacted soil, uneven moistening of the root layer of the soil. This injector is accepted by us as the closest analogue.

The essence of the claimed invention is as follows.

The task to which the claimed invention is directed is to increase operational reliability, to ensure uniform moistening of the root layer of the soil, both in area and in depth of soaking.

The technical result is an increase in operational reliability and quality of irrigation.

The specified technical result is achieved by the fact that in the proposed dropper injector for a drip irrigation system for forest and horticultural crops, comprising a detachable body with a water supply channel, according to the invention, the dropper injector is mounted on an irrigation pipe having a conoidal nozzle, the walls of which are connected to the internal cavity of the irrigation conduit radially curvature r _s = 0,5d _n, where d _n - inner diameter of the irrigation conduit, and the conoid of nozzles has a threaded tip connected to p with a threaded tip of a flexible pipe, and a washer with a calibrated hole is installed between the end part of the nozzle and the threaded tip, designed to pass a given flow rate Q = ωV, where ω is the living cross-sectional area of the calibrated hole, V is the flow velocity through the calibrated hole, the flexible pipe is threaded the tip is connected to the injector, which has water outlets made according to the parabolic curves of the equation y = x ² , where y and x are the coordinates of the parabolas, while the parabolas are turned upward , the lower part of the injector is sharpened, and the internal cavity of the irrigation pipe is connected to the water outlets by a water supply channel, the washer with a calibrated hole is interchangeable depending on the supply of a given flow rate Q.

The analysis of the prior art by the Applicant, including a search by patent and scientific and technical sources of information and the identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

Therefore, the claimed invention meets the criterion of "Novelty" under existing law.

The device of the injector-dropper is illustrated by the drawing, which shows a diametrical section of the injector-dropper for the drip irrigation system of forest and garden crops.

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

The dropper injector for the drip irrigation system for forest and horticultural crops includes an irrigation pipe 1 with a water outlet 2, the walls of which are connected to the internal cavity of the irrigation pipeline by a radius of curvature r _z = 0.5d _n , where d _n is the inner diameter of the irrigation pipeline. The water outlet is made in the form of a conoidal nozzle 3, which has a threaded tip 4. The threaded tip 4 is connected to the threaded tip 5 of the flexible pipe. A washer 6 with a calibrated hole 7 is installed between the end part of the nozzle 3 and the threaded tip 5, designed to pass a predetermined flow rate Q = ωV, where ω is the living cross-sectional area of the calibrated hole 7, V is the flow velocity through the calibrated hole 7. Flexible threaded nozzle 5 is connected to the injector 8, which has water outlets 9 made according to the parabolic curves of the equation y = x ² , where y and x are the coordinates of the parabolas. The lower part of the injector 8 has a taper 10. The inner cavity of the irrigation pipe 1 is connected to the water outlet 9 by a water supply channel 11. The washer 6 with a calibrated hole 7 is interchangeable depending on the supply of a given flow rate Q.

Injector dropper for drip irrigation system of forest and garden crops works as follows.

The water supplied to the irrigation pipe 1 under the pressure created by the pumping units in the range 0.1 ... 0.4 MPa, enters the outlet 2. The flow rate of irrigation water Q is determined by the parameters of the calibrated hole 7 with the ω-area of live section and flow rate V

where μ is the flow coefficient; H is the pressure above the center of gravity of the outlet.

For the design of the nozzle presented in this invention μ = 0.97-0.99.

The movement of the flow through the calibrated hole 7 causes resistance with a flow coefficient μ = 0.6 ... 0.62. For round calibrated hole

calibrated hole radius

Between the end part of the nozzle 3, a washer 6 is installed with a calibrated hole 7 corresponding to a given flow rate Q, and the pressure is set using a valve at the inlet to the irrigation pipeline. The flow of water with a given flow rate Q through a calibrated hole 7 enters the water supply channel 11 connected to the water outlet 9.

The water outlets 9 uniformly moisten the root layer of the plants. At the same time, the outlet channel of the water outlets is directed upward, which prevents erosion of the soil in the zone of exit of irrigation water and ensures uniform soil moisture.

Claims (1)

A dropper injector for a drip irrigation system for forestry and horticultural crops, comprising a detachable housing with a water supply channel, characterized in that the dropper injector is mounted on an irrigation pipe having a conoidal nozzle, the walls of which are connected to the internal cavity of the irrigation pipe along a radius of curvature r _z = 0 , 5d _n , where d _n is the inner diameter of the irrigation pipe, and the conoidal nozzle itself has a threaded tip connected to a threaded tip of a flexible pipe, while between the end part a nozzle and a threaded tip mounted a washer with a calibrated hole, designed to pass a predetermined flow rate Q = ωV, where ω is the living cross-sectional area of the calibrated hole, V is the flow velocity through the calibrated hole, the flexible pipe of the threaded tip is connected to the injector, which has water outlets, the equations y = x ² made according to the parabolic curves, where y and x are the coordinates of the parabolas, while the parabolas are turned upward, the lower part of the injector is pointed, and the internal cavity is irrigated of the pipeline is connected to the water outlets by a water channel, the washer with a calibrated hole is interchangeable depending on the flow of a given flow rate Q.

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