SU1178362A1 - Method of watering - Google Patents

Abstract

1. A WAY OF WATERING, including the delivery of irrigation norm, characterized in that, in order to maintain optimum soil moisture, the micro and climate parameters in the irrigation zone are improved while saving water, the irrigation rate is dispensed by daily combined irrigation with simultaneous local soil moistening, aerosol moistening of the surface layer of air and the leaf surface of plants, while the irrigation rate is equal to the total water flow from the irrigated area for the preceding day. 2. The method according to claim 1, wherein 5-10% of the irrigation rate is spent on local soil moistening, 25-30% on aerosol moistening of surface air, and 65-70% on aerosol moistening of the leaf surface of plants. 3. Method according to paragraphs. 1 and 2, characterized in that daily combined irrigation is carried out periodically for 5-7 minutes with an interval of 35-40 minutes with an increase in temperature above 25 ° C and a decrease in relative air humidity below 60%

Description

The invention relates to agriculture, namely, irrigated horticulture, and can be used for watering perennial crops by combining several irrigation methods.

The purpose of the invention is to maintain optimum soil moisture, improve the parameters of micro and photoclimate in the irrigated zone while saving irrigation water.

FIG. 1 shows a device for irrigation, fragment; in fig. 2 - distributor, cross section.

The irrigation device consists of a pump I, a supply of springs, a network of pipelines 2 laid in the soil, an irrigation network of pipelines 3 suspended from a layer, its wire 4, a connecting rod above the soil surface along a row of plants, and distributors 5 suspended at pomosh, and butterfly valves 6 to the cable 7, pulled over the plants. The nozzles 8 and 9 of the distributors 5 are equipped with centrifugal nebulizers 10 and 11, and the nozzle 12 is installed at the nozzle 12. A cylindrical insert 16 is formed on the inlet nozzle 14 of the distributor 5, forming a slit filter with the inner surface of the nozzle 14 that prevents the mechanical impurities inside the distributor 5.

On the outer cylindrical surface of the dispenser 13, tangential channels 17 are formed, forming with the inner cylindrical surface 18 of the nozzle 19 of the distributor 5, acceleration channels. The cylindrical surface 18 of the nozzle 19 is mated with a conical surface 20, passing into a calibrated orifice 21. The front surface 22 of the dispenser 13 forms with the conical surface 20 of the nozzle 19 a swirl chamber 23 of the spray gun 24. Along the axis of the dispenser 13, a channel 25 is connected to the swirl chamber 23 of the spray 24 with a drip water outlet 26 and atmosphere. The inlet 14 of the distributor 5 is installed in the openings 27 of the discharge pipe 3, held therein by means of an annular protrusion 28. The carrier wire 4 and the cable 7 are tensioned between the pillars 29 by means of tensioning devices 30 with clamps 31.

The method is carried out as follows.

Water from pump 1 flows through supply pipes 2 into irrigation pipes 3. From irrigation pipe 3, water, having passed preliminary cleaning on a slit filter, flows into the distributor 5, where it is divided into two streams. Part of the water goes through nozzles 8 and 9 to sprayers 10 and 11, where it is sprayed in the form of fine rain over the surface of plants, and some through tangential channels 17 of the feeder 13 enters the swirl chamber 23 of the sprayer 24 and is sprayed in the form of fine rain calibrated hole 21. From the swirl chamber 23 of the spray gun 24, part of the water through the channel 25 enters the drip water outlet 26, ensuring a proportional relationship between the flow rates of the spray guns 10, 11, 24 and the flow rate of the drip water outlet 26, regardless of the pressure in uboprovode 3.

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Claims (3)

1. WATERING METHOD, including the issuance of irrigation rate, characterized in that, in order to maintain optimal soil moisture, improve micro- and phytoclimate parameters in the irrigation zone while saving water, irrigation rate is issued by daily combined irrigation with simultaneous local soil moistening, aerosol humidification of the surface air layer and leaf surface of plants, while the irrigation rate is equal to the total water flow from the irrigated area for the previous day. 2. The method according to π. 1, characterized in that 5-10 ° / o irrigation rate is spent on local soil moisture, 25-30% - on aerosol moisturization of surface air and 65-70% - on aerosol moisturization of the leaf surface of plants. 3. The method according to PP. 1 and 2, characterized in that the daily combined irrigation is carried out periodically for 5-7 minutes with an interval of 35-40 minutes with an increase in temperature above 25 ° C and a decrease in relative humidity below 60% Figure 1 □ about with