RU2093015C1 - Pulsed irrigation apparatus - Google Patents

Abstract

FIELD: agronomical amelioration, in particular, pulsed irrigation of gardens and vineyards. SUBSTANCE: apparatus has metering vessel 1 positioned on area to be irrigated. Top part of vessel 1 is formed as throat 2. Vessel 1 is filled with water supplied from water source and is connected with main pipelines 3. Peripheral pipelines radiating from main pipelines 3 are provided with dispensing openings. Vessel 1 is connected with pipelines 3 through siphons 6 and 7 provided with hydraulic gates 8,9 positioned in their lower part and successively connected one with another through pulse pipes 10,11 positioned in lower part of previous hydraulic gate 10 above higher level of subsequent hydraulic gate 11. Top part of one siphon, for instance siphon 6, is closed with plug 12. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 3 dwg

Description

 The invention relates to agricultural land reclamation, in particular to pulsed irrigation, and can be used for irrigation of orchards and vineyards.

 Known pulse dropper, including a pneumatic accumulator with a neck connected through a fitting with a pressure network, having a bypass hole and an outlet channel, a housing with a bypass elastic valve and a distribution pipe (see A.S. N 869693, class A 01 G 25/02. 1981 )

 The disadvantage of this device is the low reliability.

 Also known is an irrigation pipe for drip irrigation, including prefabricated pipes with droppers, while the pipeline is equipped with filters made in the form of vortex cylindrical chambers with inlet and outlet nozzles located in the lower part of the chamber, droppers connected to the center of their bases (see a S. p. N 843871, class A 01 G 25/02, 1981).

 The disadvantages of this pipeline are also low reliability, clogged droppers.

 Closest to the proposed invention and adopted by the author for the prototype is a drip irrigation installation, including a water supply source, a main pipeline, peripheral pipelines and drip elements attached to them, the installation is also equipped with a tank with a volume equal to the volume of one main pipeline and an automatic switching device (see A.S. N 835380, class A 01 G 25/02).

 The disadvantage of this installation is the high cost of its manufacture, low reliability.

 The aim of the invention is to reduce the cost and increase the reliability of the installation.

 This goal is achieved by the fact that in the installation for pulsed irrigation, including a water supply, the main pipeline, a measuring tank with a volume equal to the volume of the main pipeline, it has siphons connected to the measuring tank and with the branches of the main pipeline, to which peripheral pipelines are connected, with distribution holes, the measuring tank is equipped with a neck, the size is comparable with the diameter of the siphon, and the siphons are equipped in the lower part with hydraulic locks, connected in series with each other tubes so that the lower part of the previous water seal is connected to the next one above its upper level and, conversely, one of the siphons is equipped with a stopper in the upper part.

 In FIG. 1 shows the layout of the installation for pulsed irrigation, top view. In FIG. 2 section of connection to the main pipeline of peripheral pipelines. In FIG. 3 dimensional container with siphons, longitudinal section.

 Installation for pulse irrigation includes a measuring tank 1 located on the irrigated area, the upper part of which is made in the form of a neck 2, filled from a water supply (not shown) and connected to the main pipelines 3, peripheral pipelines 4 extending from the main pipelines 3, provided with distribution holes 5 The tank 1 is connected to the main pipelines 3 by means of siphons 6, 7, in the lower part of which hydraulic locks 8, 9 are installed, connected in series by pulse tubes 10 , 11 the lower part of the previous water seal above the upper level of the next, and the upper part of one of the siphons, for example 6, is equipped with a stopper 12.

 Installation works as follows.

 In the measured tank 1, having a volume that ensures the operation of one main pipeline 3, water is supplied from the water supply source. Water from the measuring tank 1 is alternately distributed to one of the fields and is supplied through the main pipe 3, peripheral pipelines 4 through the distribution holes 5. Alternating distribution is carried out as follows. During filling of the measuring tank 1 through the neck 2, commensurate with the diameter of the siphons 6, 7, the siphon 6 is first started up by briefly removing the plug 12, after which, depending on the pressure difference, the working siphon 6 through the impulse tube 11 connected to the subsequent siphon 7 , due to rarefaction, removes water from the trap 9 of the siphon 7, preparing it for launch.

 After emptying the measuring tank 1 through the siphon 6, the filling of the measuring tank 1 continues, and upon reaching the upper level in the neck 2, the siphon 7 is turned on. the water lock 8 is filled with water and "locked". In this case, through the impulse tube 10, water from the hydraulic lock 8 is removed into the main pipe 3 and through peripheral pipes 4 provided with distribution holes 5, is supplied by pulses to one of the fields.

 When the measuring tank 1 is emptied, re-filling takes place, and the siphon subsequent is reached when the upper level is reached. Pulse irrigation of the next field occurs. The cycle repeats. The shutdown of the installation is achieved by stopping the supply of water to the measuring tank 1.

 Compared with the prototype and known devices, the proposed installation is much cheaper to manufacture and more reliable in operation. Irrigation is performed by pulses alternately on one of the fields, which allows the root system to completely absorb water, and soil salinization is excluded. Pulse irrigation of fields of the proposed installation eliminates the need for filters in pipelines and pressure control systems.

Claims (1)

 Installation for pulsed irrigation, including a water supply source, a main pipeline, a measuring tank with a volume equal to the volume of the main pipeline, and bellows connected to a measuring tank and branches of the main pipeline, to which peripheral pipelines having distribution holes are connected, characterized in that the measuring tank equipped with a neck comparable in size to the diameter of the siphon, and the siphons are equipped in the lower part with hydraulic locks, connected in series by impulse tubes so that the lower part of the previous water seal is connected to the next one above its upper level and, conversely, one of the siphons is equipped with a stopper in the upper part.

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