SU1194329A1 - Method and apparatus for irrigating - Google Patents

Abstract

1. Irrigation method, which includes supplying a liquid, creating an aerosol and spraying it into the atmosphere, in order to increase the efficiency of irrigation and increasing the irrigation zone, create an aerosol by influencing the burning gas on the supplied liquid, and spraying it is emitted into the atmosphere in the form of vortex rings.

Description

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2. The ho ho method of p. 1, of tl and h a rout and, with the fact that, a vortex ring is given extra rotation in a plane orthogonal to the direction of translational motion.

3. A sprinkler irrigation device comprising a chamber for forming an aerosol with a nozzle and a pulse generator having a combustion chamber and a fuel supply system with an ignition device, characterized in that

In terms of irrigation efficiency and increase in irrigation zone, the pulse generator is made in the form of an electrolyzer combined with an aerosol combustor through a non-return valve, and the nozzles are made in the form of a telescopic vortex generator with an annular channel.

. 4. The device according to claim 3, wherein it is such that curved shaped guides are installed at the entrance to the vortex generator.

The invention relates to irrigation of agricultural crops by a method of sprinkling and can be used on pulsed irrigation systems, as well as for protecting plants from frost and as a method of extinguishing fire during fires.

The purpose of the invention is to increase the efficiency of irrigation and increase the irrigation zone.

The drawing shows schematically an apparatus for carrying out the method.

The method is implemented as follows.

The passage of current through the electrolyte is accompanied by the release of a rattling syesi. After it is ignited, the combustion passes into an explosion, and the latter into detonation. Vaporous moisture, due to pressure, tends to expand and acts on the fluid, which forms part of the irrigation rate, causing it to crush. An aerosol is formed. The resulting aerosol moves to the atmosphere. At the moment of exit, an ominous layer is formed with significant vorticity; After the aerosol moves in the form of a vortex ring, there is practically no loss of moisture. The range of flight of the vortex rings increases with the creation of vortex rings of complex structure, as well as with their twisting and with increasing pulse energy. The size of the aerosol droplets is controlled by the volume of liquid that is affected by the combustion products of the explosive mixture, and again by the energy of the pulse.

The irrigation irrigation device includes a housing 1 with a vortex generator 2, water supply pipelines 3 and 4 with a check valve, electrodes 5, a housing 6, a drain hole 7, legs 8, a glow plug 9. The aerosol formation chamber 10 communicates with the detonating mixture through chamber 11 check valve 12. Vortex converter 2 is made in the movable part 13 of housing 1 and consists of a telescopic broadening 14, a cylindrical insert 15, guides 16 of curvilinear shape. Box 15

forms between the walls of the housing annular channel 17.

The device works as follows.

Water is fed through line 3

with a check valve and accumulates in the Lower part of the chamber 10 forming an aerosol as part of the irrigation rate, covering the check valve 12. At the same time in the cavity B of the chamber 1I of the formation of explosive mixture, when voltage is applied to the electrodes 5, a volatile mixture accumulates in cavity A. Zapalnoy Candle 9 ignites the mixture. The shock wave that forms with the valve opens the check valve 12 and penetrates into the chamber 10 to form an aerosol through the water and spray it. At the same time, water vapor produced by burning an explosive mixture is exposed to

water, mixing them. The resulting aerosol fills chamber 10 and

moves in its edger 2, near which walls a border is formed

no layer. At the exit to the atmosphere, the boundary layer is torn off, twisted, and a vortex ring is formed from the aerosol. The cycle is repeated. Due to the loss of part of the water in cavity B when the shock wave passes through the check valve 12, it is necessary to periodically fill the shortage by supplying water through the pipe A with the check valve. The aerosol, when it enters the vortex generator 2, moves along curvilinear guides 16 and twists. When the flow converges from the edges of the nozzle, the boundary layer is twisted relative to the telescopic broadening 14 and the cylindrical insert 15 "

29.

a swirl ring of complex structure. In the edger 2 with a telescopic widening 14 and a cylindrical insert 15 improved

vortex conditions, since areas with large velocity gradients are created when aerosol is released into the atmosphere.

The magnitude of the pressure in cavity A. is adjusted by the total amount of supplied detonating gas, thereby changing the range of flight of the vortex rings. The moving part of the barrel can mix in a vertical plane when

This changes the range of the vortex rings.

Claims (4)

1. The method of irrigation, including the supply of liquid, creating an aerosol and spraying it into the atmosphere, characterized in that, in order to increase the efficiency of irrigation and increase the irrigation zone, the aerosol is created by exposing the products of combustion of explosive gas to the supplied liquid, and spraying it the atmosphere is carried out in the form of vortex rings. 2. The method ho p. 1, characterized in that the vortex ring give additional rotation in a plane orthogonal to the direction of translational motion. 3. A sprinkler irrigation device comprising an aerosol formation chamber with a nozzle and a pulse generator having a combustion chamber and a fuel supply system with an ignition device, characterized in that, in order to increase the irrigation efficiency and increase the irrigation zone, the pulse generator is made in the form of an electrolyzer combined with the aerosol combustion chamber through a non-return valve, and the nozzles are made in the form of a telescopic vortex generator with an annular channel. . 4. The device according to claim 3, with the fact that at the entrance to the vortex generator, guides of curved shape are installed.