RU2535310C1 - Sprinkler nozzle-activator for mobile sprinkling machines - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: in sprinkler nozzle activator for mobile sprinkling machines the L-shaped housing is mounted in the rear part of the sprinkling machine. The helical flow guide is made of auger-type of left-side orientation and is placed on the body of rotation formed by rotating of equilateral hyperbola $$y=\frac{x}{h}$$

near the vertical axis. The height of the turns of the auger is connected with the inner cavity of the vertical part of the housing. In the lower vertical part of the housing using a threaded ring a transformer of water flow to raindrops is mounted. The transformer comprises curved blades formed on logarithmic spiral of left-side orientation. Between the blades on the bottom the water-gripping blades are provided, made in the form of a hollow half-cone and mating with holes in the bottom. The blades are located on concentric circles, the horizontal part of the bottom is connected with its vertical part on the radius. On the vertical part of the bottom the drop-forming holes are made, located in two tiers. The holes in the bottom under the water-gripping blades are connected in the rear and the front part with the blade and the vertical wall along the radius.

EFFECT: generating rain with drop sizes, suitable for irrigation of a wide range of cultivated crops.

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Description

The invention relates to the field of hydraulic engineering reclamation and can be used on mobile sprinklers to produce rain with droplet sizes acceptable for irrigation of a wide range of cultivated crops.

A sprinkler deflector nozzle is known, comprising a housing mounted on a rack, connecting the pillar to a support with a deflector mounted on it and arranged to rotate a fluid flow regulator in which, in order to increase the reliability of the nozzle, spray quality and expand technological capabilities, the fluid flow regulator is made in the form of a cylindrical liner with diametrically located channels of different diameters, and the deflector is made with a central channel and is equipped with placed in the last Let’s take it with the possibility of axial movement by the core (SU, copyright certificate No. 923635, M. class. ³ B05B 1/18, 1/26, 1/30).

During irrigation by sprinkling with two-console sprinkler units of the DDA-100 VX family (Volgograd Plant of Irrigation Equipment OJSC), the irrigation water is drawn by a floating valve from an open irrigation system. Together with water from the canal, both sediment and mineral suspension are sucked in. During operation of the described nozzle, first of all, small-diameter radial channels are clogged. Each nozzle also requires careful individual adjustment when supplying irrigation water under operating pressure. To clean the radial channels requires complete disassembly of the nozzle. All this reduces the technological reliability of the sprinkler.

A nozzle for a sprinkler assembly is known, comprising a body mounted by means of a nipple of a water supply pipe, a deflector fixed to the column and a nozzle with a central hole, the deflector made in the form of a concave bowl facing the nozzle with a bulge in its middle part and a threaded hole combined with the axis of symmetry, divided stiffening ribs on the compartments and undercutting the curved surface of the bowl between its peripheral annular edge and convexity, each of the compartments has height p A variable cross-section, provided with the possibility of stepless movement of the deflector and the nozzle are connected by means of a stand (RU, patent No. 2173584 C1, M. class. ⁷ B05B 1/18, 1/26).

The disadvantages of the described nozzle sprinkler unit include design complexity, low reliability, lack of the ability to obtain fine irrigation.

Known sprinkler nozzles containing a housing mounted on a water supply pipe with a deflector fixed to its output part, made in the form of a concave bowl facing the water supply pipe, while the bottom of the concave bowl is connected to the cover of curved blades, and the cover has a threaded flange for connection with the body while a screw flow guide is placed inside the casing, the rod of which in the lower part is mated with the bottom of the concave bowl in a radius equal to the inner diameter of the casing a, and the screw flow guide itself is fixed to the bottom of the concave bowl using a bolted connection (RU, patent No. 2327530 C1, IPC B05B 1/18).

The disadvantages of this sprinkler nozzle are the low quality of droplet formation, possible clogging of the gap between the lid and the edge of the concave bowl.

This sprinkler nozzle is adopted as the closest analogue.

The essence of the claimed invention is as follows.

The problem to which the invention is directed is to increase operational reliability, quality of droplet formation and simplification of design.

The technical result is the formation of droplets acceptable for irrigation of a wide range of crops, increasing productivity.

около вертикальной оси, при к≥2, высота витков шнека сопряжена с внутренней полостью вертикальной части корпуса, в нижней вертикальной части корпуса с помощью резьбового кольца установлен преобразователь потока воды в дождевые капли, включающий криволинейные лопасти, выполненные по логарифмической спирали левосторонней направленности, между лопастями на днище предусмотрены водозахватные лопатки, выполненные в виде полого полуконуса и сопряженные с отверстиями в днище, при этом лопатки расположены на концентрических окружностях, горизонтальная часть днища сопряжена с его вертикальной частью по радиусу, а на вертикальной части днища выполнены каплеобразующие отверстия, расположенные в два яруса, отверстия в днище под водозахватными лопатками сопряжены в задней и передней части с лопаткой и вертикальной стенкой по радиусу. Проведенные заявителем анализ уровня техники, включающий поиск по патентным и научно-техническим источникам информации и выявление источников, содержащих сведения об аналогах заявленного изобретения, позволил установить, что заявителем не обнаружен аналог, характеризующийся признаками, идентичными всем существенным признакам заявленного изобретения.The specified technical result is achieved by the fact that in the well-known sprinkler nozzle-activator for mobile sprinklers, including a housing mounted on a water supply pipe with a deflector fixed to its output part with a bottom having curved blades and a screw flow guide located inside the housing fixed to the bottom a bolt, according to the invention, the L-shaped housing is installed in the rear of the sprinkler, the screw flow guide is made with a screw of the left direction and placed on a body of revolution formed by rotation of an equilateral hyperbola $$y=\frac{x}{\mathrm{to}}$$

near the vertical axis, at k≥2, the height of the turns of the screw is conjugated with the internal cavity of the vertical part of the body, in the lower vertical part of the body with the help of a threaded ring, a transducer of water flow into raindrops is installed, including curved blades made along a logarithmic left-handed spiral between the blades on the bottom there are water-catching blades made in the form of a hollow half-cone and paired with holes in the bottom, while the blades are located on concentric circles, mountains the isontal part of the bottom is conjugated with its vertical part in radius, and drop-forming holes located in two tiers are made on the vertical part of the bottom, holes in the bottom under the water-absorbing blades are mated in the back and front with a blade and a vertical wall in radius. The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and 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 invention is illustrated by drawings.

Figure 1 shows the sprinkler nozzle-activator for mobile sprinkler machines with a local section along the axis.

Figure 2 is the same, top view.

Figure 3 is a section aa in figure 1 of a water-holding blade.

Information confirming the possibility of implementing the claimed technical solution is as follows.

около вертикальной оси, при к≥2. На теле 3 вращения размещен винтовой шнековый направитель 4 потока левосторонней направленности. Высота витков шнека сопряжена с внутренней полостью вертикальной части корпуса 1. В нижней вертикальной части корпуса 1 с помощью резьбового кольца 5 установлен преобразователь потока воды в дождевые капли, включающий криволинейные лопасти 6, выполненные по логарифмической спирали левосторонней направленности, днище 7 с водозахватными лопатками 8. Днище 7 сопряжено по радиусу 9 с вертикальной стенкой 10, на которой выполнены в два яруса водовыпускные каплеобразующие отверстия 11. Задняя стенка отверстия 12 в днище 7 под водозахватными лопатками 8 сопряжена с лопаткой 8 по радиусу, передняя стенка отверстия 12 сопряжена с наружной кромкой днища по радиусу. Водозахватные лопатки 8 размещены на днище 7 на окружностях разного диаметра. Тело 3 вращения закреплено к днищу 7 с помощью болта 13.The sprinkler nozzle-activator for mobile sprinklers includes a L-shaped housing 1, the horizontal part of which has a connecting thread 2 for connection with the inlet pipe. In the vertical part of the housing 1 there is a rotation body 3 formed by rotation of an equilateral hyperbola $$y=\frac{x}{\mathrm{to}}$$

near the vertical axis, with k≥2. On the body 3 of rotation there is a screw screw guide 4 of the left-hand flow stream. The height of the turns of the screw is associated with the inner cavity of the vertical part of the housing 1. In the lower vertical part of the housing 1, a threaded ring 5 has a water-to-raindrop transducer, including curved blades 6 made on a left-side logarithmic spiral, bottom 7 with water-absorbing blades 8. The bottom 7 is mated along the radius 9 with a vertical wall 10, on which water-discharge droplet-shaped holes are made in two tiers 11. The rear wall of the hole 12 in the bottom 7 under the water-entrailing blade MI 8 is associated with the blade 8 in radius, the front wall of the hole 12 is connected with the outer edge of the bottom in radius. Water-capture blades 8 are placed on the bottom 7 on circles of different diameters. The body 3 of rotation is fixed to the bottom 7 using a bolt 13.

Sprinkler nozzle-activator for mobile sprinkler machines works as follows.

The flow of water flows from the supply pipe into the L-shaped housing 1 and is directed to its vertical part. In the vertical part, the water flow interacts with the turns of the screw screw guide 4 and acquires a rotational movement of the left-side orientation, which causes a change in the structure of water and an increase in its biological activity. A rotating stream of water from the turns of the screw screw guide 4 enters the curved blades 6, and its rotation speed, counterclockwise, provides a further increase in the biological activity of water. In the inter-lobe space, part of the water flow is captured by the water-grabbing blades 8 and is thrown onto the surface of the soil and leaf-stem part of plants. A part of the flow from the inter-blade space enters the water-discharge droplet-forming holes 11 and is distributed in the form of small drops along the irrigated surface. The use of water-absorbing blades 8 and their conjugation along the radius with the bottom 7, the use of droplet-forming holes 11 provides the formation of drops that are acceptable for irrigation of a wide range of crops.

The supply of irrigation water with increased biological activity provides a significant increase in crop yields.

Claims (1)

Sprinkler nozzle-activator for mobile sprinklers, including a housing mounted on a water supply pipe with a deflector fixed to its output part with a bottom having curved blades, and a screw flow guide located inside the housing, bolt fixed to the bottom, characterized in that it is L-shaped the casing is installed in the rear of the sprinkler, the screw flow guide is made with a screw of the left direction and placed on the body of revolution formed by the rotation of equilateral hyperbole $$y=\frac{x}{\mathrm{to}}$$

near the vertical axis, at k≥2, the height of the turns of the screw is conjugated with the internal cavity of the vertical part of the body, in the lower vertical part of the body with the help of a threaded ring, a transducer of water flow into raindrops is installed, including curved blades made along a logarithmic left-handed spiral between the blades on the bottom there are water-catching blades made in the form of a hollow half-cone and paired with holes in the bottom, while the blades are located on concentric circles, mountains the isontal part of the bottom is conjugated with its vertical part in radius, and drop-forming holes located in two tiers are made on the vertical part of the bottom, holes in the bottom under the water-absorbing blades are mated in the back and front with a blade and a vertical wall in radius.

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