SU1063924A1 - Drying and watering system - Google Patents

Abstract

1.HEATING-MOUNTING SYSTEM. A SYSTEM containing drayas, closed transporting collectors, a humidification channel and wells equipped with hydraulic automatic machines, characterized in that, in order to ensure the possibility of regulating the water-air regime, the soils in difficult relief conditions, the humidification channel is made in the form of a low-pressure pipeline with a pressure regulator at the inlet, connected to each well by means of a branch pipe, equipped with a diaphragm drive for raising and lowering its end and communicating with the well, The diaphragm flow controller has an adjustable drain hole, the regulator and actuator working cavities are connected to the pipeline J by the supply tubes, and the branch pipe in the end part is loaded. . A system according to claim 1, characterized in that the nozzles in the end portion are provided with / | ibki inserts.,

Description

The invention relates to land reclamation and can be used to regulate the water-air regime of overmoistened soils under the conditions of a developed microrelief.

The drainage-humidifying system is known, including drayas, collectors, humidifying and drainage channels and sluices in collector conditions. To regulate the system operation mode.

The disadvantages of this system are the manual transfer of the system from mode to mode, the presence of a deep open drainage network for vertical connection of closed drainage, and the presence of more regulating devices.

Closest to the proposed one, there is a drainage and humidification system, including drains, closed trasporting collectors, a humidification duct, and wells equipped with hydraulic automatic machines 2.

A disadvantage of the known system is the impossibility of adjusting the modes of operation of the system in difficult relief conditions. Purpose. invention - providing the possibility of regulating the water-air regime of soils in difficult relief conditions. The goal is achieved by the fact that in the drainage and humidification system the humidification channel is made in the form of a low-pressure pipeline with an inlet pressure regulator connected to each well by means of a branch pipe equipped with a diaphragm drive lifting and lowering its end and communicated with the well by means of the diaphragm flow regulator having an adjustable drain hole, while the working cavities of the regulator and actuator are connected with the pipeline by the supply tubes, and the branch pipe in the end part is loaded. In addition, the nozzles in the end part can be provided with flexible inserts. FIG. 1 shows the longitudinal profile of the proposed system; in fig. 2 - the node in FIG. 1 (connection of low-pressure pipelines to wells). The protection-humidification system contains a source of 1 irrigation, a pump 2, a water tower 3 equipped with a pressure regulator 4 at the inlet to a humidification channel made in the form of a pressure pipeline 5, wells 6 with hydraulic automatic devices, branch pipes 7, equipped with a diaphragm flow regulator 8 with an adjustable diaphragm drain drain drive 10 for raising and lowering the end of the nozzle. The flow regulator 8 and diaphragm actuator 10 are connected to the pressure pipeline; 5 supply tubes 11 and 12. Nozzles on the end part of the loading weights J3

and provided with flexible inserts to allow opening and locking of the drain opening 9 of the diaphragm flow controllers 8.

The system also contains drains 14, connected to the transporting collector 15, which is connected to the drying channel 16.

At some distance from the water tower 3, a U-shaped tube 17 is installed with a height of restriction of the piezo-dynamic dynamic head in the pipeline 5, which is connected to the head regulator 4 by the tube 58.

The system works as follows.

In drainage mode, water from drains 14

discharged into wells b and then through

conveying headers 15 enters

to the drainage channel 16.

If it is necessary to moisten the water, from the source of the first orion 1, the pump 2 is supplied. into the water tower 3 to a certain / (level to which the head 4 is adjusted, and from pipe 5 through pipes 7 there are wells 6, which ensures that the drainage flow is blocked and water is supplied To humidification to the level determined for each well. In the set mode the soil is saturated with moisture and the gradual abandonment of water consumers from wells 6, as a result of which the pressure in the pipeline increases and approaches the static one. This causes an unproductive discharge of water into the drainage network, which is timely is displaced by the pressure regulator 4, which receives the signal as a portion of the Water from the tube 18, where it comes as a result of raising the piezometric level in the pipe 5 above the one assigned through the U-tube 17. The pressure regulator 4, receiving a signal, lowers the pressure, not allowing unproductive water discharges.If the need to raise the level of groundwater, increase the water level in the water tower 3 by means of the 4 th regulator and P-tube 17. The increase in pressure in the pipe 5 leads to an increase in the diaphragm X actuator 10 and the flow regulator 8 torus, whereby the end of the nozzle 7 is lifted and opens the drain hole 9, resulting in syizheyiyu pressure in the working chamber of the torus flow regulator 8 which is transmitted increases in the well 6 Consumption. ; The water level in the b wells rises until the pressure from the well to the drive 10 for raising and lowering the nozzle 7 does not return its diaphragm to its previous position, which in turn leads to the lowering of the socket 7 and closing the drain hole 9, consumption

WATER IN COLODEC 6 UMES, providing a new preset level in it.

Using the proposed Diet system, it is possible to control the level of groundwater from the place of the head intake using low pressure pipes and

as the canyles of the Unravlei in conditions of very rugged terrain.

As a result of the application of the invention, water is saved by reducing unproductive discharges, as well as capital expenditures for strategic operation and operation of the system.

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ig. 2

Claims (2)

1. DRYING AND HUMIDIFICATION. SYSTEM containing drains, closed conveying manifolds, a humidification channel and wells equipped with hydraulic machines, characterized in that, in order to provide the possibility of regulating the water-air regime _; in difficult relief conditions, the humidification channel is made in the form of a low-pressure pipeline with an inlet pressure regulator connected to each well by means of a nozzle equipped with a diaphragm drive for raising and lowering its end and communicated with the well through a diaphragm flow regulator having an adjustable drain hole, while the working cavities of the regulator and the drive are in communication with the pipeline by the supply tubes, and the pipe in the end part is loaded. 2. Pop system. 1, characterized in that the nozzles in the end part are provided with / (Flexible inserts.