SU1637710A1 - Irrigation - Google Patents

Abstract

The invention relates to a Rely economic and can be used for irrigation of agricultural crops using fresh groundwater. The purpose of the invention is to improve the water and salt regimes of the soil by combining surface and subsoil irrigation. The system includes porous pipes 1 connected by pipe 7 through storage tank 15 with well 12, and a water intake tank 18 connected by pipe 23 with well 12 and pipe 16 with capacity 10, which is divided into two chambers 9 and 15 by a membrane 14. When conducting subsoil irrigation water under the action of the suction capacity of the soil flows through pipe 7 through chamber 9 of container 10 from well 12. When switching irrigation to the surface deflection of the membrane 14, it creates a suction depression that provides water through pipe 23 to tank 18 and from there through pipe 21 on top the site. The combination of surface irrigation with the subsoil reduces the concentration of salts in the upper layer and provides a more uniform moisture. 2 Il.

Description

The invention relates to agriculture, namely to irrigation reclamation, and can be applied when irrigating crops using fresh groundwater.

The purpose of the invention is the improvement of water and salt regimes of the soil by combining subsoil irrigation with surface.

In Fig.1 shows the irrigation system when working in the regime of subsoil irrigation: in Fig.2 - the same when working in the regime of surface irrigation.

The system includes a regulatory network in the form of horizontal porous pipes 1, placed below the surface 2 of the earth under the arable horizon. The fine-porous pipe on one side has access to the day surface through a vertical pipe 3 with a valve 4, where when filling the system with water, a vacuum pump 5 is connected through a flexible hose 6, and on the other hand, through a vertical pipe 7 equipped with a valve 8, it has a tight connection with the camera 9 of the storage tank 10. The camera 9 is hermetically connected to a horizontal tube 11, which is led into the water well 12 and is equipped with a valve 13. The membrane 14 divides the storage tank 10 into the camera 9 and the camera 15, which is vertically the pipe 16, equipped with a valve 17, is hermetically connected to the tank 18. The latter is installed on the ground and has a pipe 19, equipped with a valve 20, for communication with the atmosphere, a water outlet pipe 21, equipped with a valve 22, for supplying water from the tank to the soil surface, hermetically connected vertical pipe 23, which is lowered into the water well 12 and on which the valve 24 is installed, a piezometer 25, designed to control the water level in the tank 18.

The irrigation system works as follows.

Before starting work, air is in the control network of the irrigation system. To bring the system into working condition, it is necessary to fill it with water. To do this, by closing the valves 17, 22 and 20 (the rest are open), a vacuum pump 5 is connected to the exhaust pipe 3 using a hose 6 and air is pumped out of the system. As a result, the system is filled with water rising under the influence of atmospheric pressure from the well 12 through the chamber 9 of the storage tank 10. After complete removal of air from the porous pipes 1, the pipe is closed by a valve 4 and the system enters into the automatic mode of moistening due to the degree of soil moisture. After closing the valve, the vacuum pump 5 is disconnected. Moreover, as the soil dries up due to water consumption of plants and evaporation, the sucking strength of the soil increases, which contributes to the removal of water from fine-porous pipes into the capillaries of the soil. The rarefaction that arises in the pipes causes the suction and rise of water through the pipe 7 from the well 12 through the pipe 11 through the chamber 9 of the storage tank 10. In this mode of operation of the irrigation system of the underground soil irrigation, especially in the arid zone due to the intense total evaporation of soil moisture in the upper layers of the soil , Above finely porous humidifiers, salt deposition occurs, which adversely affects the growth and development of plants. To create a leaching regime of irrigation, it is proposed to combine subsurface irrigation with periodic surface irrigation.

To conduct surface irrigation, it is necessary to additionally close the valve 13 and open the valve 17. At the same time, the irrigation system operates as follows. As water is drained from the porous pipes 1 into the soil capillaries, the resulting vacuum inside the fine-porous pipes causes water to be sucked up and lifted from the chamber 9 of the storage tank 10 through the pipe 7. Since the valve 13 is closed, the water suction from the storage tank 10 leads to a decrease in the volume of water in the chamber 9. Due to the increasing vacuum in the chamber 9, the membrane 14 gradually moves to the leftmost position (Fig. 2), which causes an increase in the volume of the chamber 15. where, accordingly, a vacuum also occurs. Since the valves 17 and 24 are open, the vacuum that occurs in the chamber 15 is transmitted through the pipe 16 to the tank 18. At the same time, under atmospheric pressure, water from the well 12 gradually rises along the vertical pipe 23 into the tank 18, where it is accumulated. Water is supplied until the system is in equilibrium. The accumulated water in the tank 18 is monitored using a piezometer 25. After the accumulation of a certain amount of water in the tank 18, surface irrigation can be carried out.

To conduct surface irrigation, it is necessary to first close the valves 8, 17 and 24 and open the valve 20. Then, by opening the valve 22 of the water outlet pipe 21, carry out surface watering to close the valves 20 and 13 and open the valves 8 and 24. After this, the cycle resumes,

those. at the same time, subsoil watering and filling of the tank 18 occur.

The use of the proposed irrigation system is recommended when bedding fresh groundwater at a depth of not more than 4 - 4.5 m from the soil surface. 10 Similar conditions, as a rule, are found in the zone of large earthen canals.

plot of subsoil irrigation. The accumulated water from the tank 18 under pressure is poured through the pipeline to the irrigation section. The flow rate in the irrigation pipe is regulated by a valve 22.

After emptying the tank 18, it is necessary to close the valve 22 and open the valves 13 and 17. In this case, the ground water from the well 12 through the pipe 11 fills the chamber 9 of the storage tank 10. With an increase in the volume of water in the chamber 9, the membrane 14 bends and takes up pressure from the groundwater pressure the leftmost position, shown by a dashed line, and in the chamber 15 the pressure at this moment is equal to atmospheric, since the chamber 15 with open valves 17 and 20 is connected with the atmosphere. As much as 15

Claims (1)

Claim An irrigation system, including intrasoil humidifiers, paired with a pipe with a water well, buried to groundwater, characterized in that. in order to improve the salt and water regimes of the soil by combining subsoil irrigation with surface irrigation, it is equipped with a sealed water intake tank with a water outlet for surface irrigation and a connected pipe with a valve with a water well and a storage tank located on the pipe between the humidifiers and the well, the storage tank is divided by a flexible membrane into two chambers, one of which is hydraulically connected