SU1748741A1 - Irrigation method - Google Patents

Abstract

The invention relates to agriculture and can be used for irrigating furrows and strips. The purpose of the invention is to increase the reliability of the process and reduce water consumption. To implement the method, pipeline 1 is used with water outlets 2 and hydrants 3 connected to the water supply network 4. On hydrants 3, locking elements 5 are installed, controlled via line 6 from the console 7. During the irrigation process, alternately opening the locking elements 5, The start-up of water into pipeline 1, wherein the start-up time on console 7 is set on the basis of the flow of water to at least half the length of the pipeline. Such a supply of water prevents the formation of sludge and allows for pulsed water supply from water outlets of 2.2 sludge,

Description

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The invention relates to agriculture and can be used for irrigating agricultural crops along furrows and strips.

The known method of irrigation along the furrows of VNPronov, in which water supply with a constant flow rate is accompanied by impulses increased up to 50% of the constant flow rate.

The disadvantage of this method is the high material consumption of technical means for its implementation.

The closest to the proposed method is the PS method, which consists in separating the irrigation cycle during the phase — the initial one, during which water is supplied with a large flow rate for fast reaching the end of the furrows, and the subsequent infiltration phase, during which water is pulsed with proportional control pulses and breaks in between. The system for implementing the method comprises a distribution pipeline, branch pipes to the furrows with working pneumatic hydraulic diaphragm channels installed in the pipes.

The disadvantages of this method are the high material consumption of technical means and the low reliability of the technological process, since water is supplied to dead-end pipelines (branch pipes), which leads to intensive sedimentation of sediment in the end part of the conduits. has a low reliability of irrigation controls. To control such a system, it is necessary to create specially designed automation elements specifically for this. This increases the range of parts.

The purpose of the invention is to increase the reliability of the process, reduce the waste of water and reduce metal consumption.

This goal is achieved by the fact that the pulsed water supply to the furrows is carried out from a conduit connected by their ends to the hydrants of the distribution network, in which water is supplied by a signal from the control elements to the locking elements of the hydrants alternately from one end of it to the other. the pulse duration is determined from the calculation of the filling of the conduit on a length not less than half of it.

FIG. 1 General view of the irrigation device that implements the proposed method

watering, in FIG. 2-scheme of water supply from the device.

Irrigation pipe 1 with outlets 2 located at a distance of

multiple inter-row, both ends of their connected to hydrants 3 (siphons) closed (open) distribution network 4, which are equipped with shut-off controlled elements 5 (valves, valves,

flaps or the like). The locking elements 5 through the control line 6 are connected to the control panel 7, the drive of which is electric (solar panels or batteries) or hydraulic. Irrigation water 8 is indicated in figure 2 in the form of vectors, the length of which corresponds to the amount of water flow from water outlets 2 into irrigation furrows 9.

The irrigation method is carried out as follows.

Irrigation pipe 1 is connected to hydrants 3 with its both ends. Located in the middle or at one of the ends of the pipeline 1 remote control 7 controls

connected to the locking elements 5 by a control line 6. During the irrigation process, water 8 from the distribution network 4 through hydrant 3, the open shut-off element 5 enters the irrigation pipeline 1 and through adjustable outlets 2 into the grooves 9. From the control panel 7, the control unit 6 sends the command to open (close ) one and the closing (opening) of the other. Commanded by

Console 7, irrigation water 8 is supplied to irrigation pipe 1 alternately on one side, then, as it were, on opposite sides.

With such a scheme of water supply to the pipeline 1, by adjusting the pressure at the inlet, and, consequently, the length of the decline curve, it is possible to carry out various schemes for supplying water to the furrows (Fig. 2). If the recession curve closes with the bottom of the water conduit (zero piezometric head) at the opposite end of the pipeline, then watering will be carried out by a constant jet. If the length of the decay curve is less than the length of the pipeline, then irrigation water supplied in

the pipeline will not reach the end of the conduit and part of the grooves beyond the zero point of the piezometric head will remain dry. When water is supplied to the pipeline from the other end, the same portion of non-cast furrows will be on the opposite side of the irrigated area.

In this case, the outermost sides of the pipeline, the furrows on the length along the irrigation front will be watered with intermittent water supply into the furrows and the mid-section by a constant jet.

Proceeding from the condition that the irrigation zone with low quality, which is in the middle part of the pipeline, was minimal, the regulation of the outlets is performed as follows. Presumably, in the first embodiment, the length of the decline curve is assumed to be two thirds of a pipeline. At the length of one third of the pipeline, the outlets are adjusted to the same flow rate, and the length of the second third is adjusted downstream, according to the decline curve. If the point with zero piezometric head coincides with the point of the expected end of the decay curve, the calculation can be completed or continued, but with the aim of reducing the water supply area according to the decay curve and increasing with a constant flow rate. However, the point with zero piezometric head should not be located before reaching the middle of the conduit.

For the implementation of irrigation with a discontinuous jet, the calculation determines the opening value of the closure element, providing a pressure at the entrance to the pipeline such that the flow rate

distributed over water outlets on the length of the pipeline, less than its total length, but not less than half its length.

Having obtained this quantity by opening, a limiter is placed on the locking element, which will allow opening only by this fixed value, which provides the calculated irrigation technology. In the future, the pipeline operates in automatic mode. On commands from the control panel 7, the locking elements 5 on the hydrants 3 are opened by the calculated value and closed after the calculated period of time due to the irrigation technology.

Claims (1)

Claims The method of irrigation along the furrows by supplying water to the irrigation pipeline alternately from its different ends, differing in that. that, in order to reduce water consumption for flushing the pipeline and increase the reliability of the irrigation process, water is supplied from each end of the pipeline with pulses, the duration of which is determined from the calculation of filling the pipeline by at least half its length. m / i -SSHLSH 1- - - 1 TSHSHPSHDO 1 -iLJ: rcTl LBB T1ZHShT1Sh1G  ILUiJl 111SH1ShTSH tzhg. g tg gsh1gol Mhl to