RU2119743C1 - Irrigation system - Google Patents

Abstract

FIELD: agriculture, in particular, supplying of water in accordance with water requirements. SUBSTANCE: irrigation system has vessel, water source connected with water supply pipeline via vacuum valve and branch pipes with vessel. On and off float valve is mounted in upper part of each vessel and water discharge branch pipe is connected to each lower part of each vessel. Water is consumed from each vessel as it is absorbed by soil without vacuum intercept due to operation of float valve, which cuts off water supply into vessel as it is filled with water and prevents vacuum intercept during emptying of vessel by being put onto opening seat. EFFECT: increased efficiency and simplified construction. 3 dwg

Description

 The invention relates to the field of agriculture and can be used for irrigation of crops.

 A known drip irrigation system, including containers with water outlet pipes at the bottom and on-off valves and pipes for connecting to a water supply pipe equipped with a valve for fixing the moment of filling the system (SU, copyright certificate, 967410, class A 01 G 25/06, 1982) .

 The known device operates in a pulsed mode with alternating accumulation and discharge of water.

 A device is known for subsoil drip irrigation, including a tank with a vacuum valve, a water supply pipe with irrigation pipes (RU, application, 93007510/13, class A 01 G 25/06, 1995).

 In the known device, due to the presence of a slope of the field and heterogeneity of the soil when water is supplied through irrigation pipes, a vacuum breakdown occurs in the system and the uniformity of water supply across the field is violated.

 The purpose of the invention is the provision of the ability to supply water to plants in accordance with their need and the exclusion of a vacuum.

 In FIG. 1 is a diagram of the irrigation system; in FIG. 2 - node A in FIG. one; in FIG. 3 - irrigation system, top view.

 The irrigation system consists of a water source 1 communicating with a water supply pipe 2 through a vacuum valve 3 and nozzles 4 with containers 5, in the upper part of which a two-position float valve 6 is installed, having a float 7, an upper elastic seat around hole 8 and a lower elastic seat around hole 9. In the lower part of the tank is equipped with a water outlet 10.

 The system operates in the following sequence. Pipes 10 tanks 5 are buried in the soil in the zone of the plant roots. The nozzles 4 are connected to the water supply pipe 2. In the water source 1, a pressure is created that exceeds the resistance of the vacuum valve 3, through the water supply pipe 2 and the pipes 4, water enters the tank 5, fills them, displacing air through the valve 6. After the tanks 5 are completely filled, floats 7 into the valve 6 floats up and is pressed to the saddles of the openings 8. After filling all the containers 5, the pressure in the water source 1 is reduced to a level that closes the vacuum valve 3. The consumption of water through the nozzles 10 occurs as it is absorbed soil, while there is a sequential selection of water from the water supply pipe 2 and tanks 5 to create a vacuum in them. In this case, the float 7 in each tank 5 lies on the saddle of the hole 9 and prevents the vacuum from being disrupted in it. Upon reaching a predetermined level of vacuum, the vacuum valve 3 opens and water flows through the water supply pipe 2 to the tank 5. After filling, their vacuum decreases and the vacuum valve 3 closes.

Claims (1)

 An irrigation system including a water source with a vacuum valve and a water supply pipe on which water outlets are installed, characterized in that each water outlet is equipped with a tank, in the upper part of which a two-position float valve is mounted.

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