SU1550034A1 - Drainage system - Google Patents

Abstract

The invention relates to land reclamation and can be used in the construction of closed drainage systems on saline soils. The purpose of the invention is to maintain an optimal water-air regime of soils in accordance with the phases of plant development by creating a fresh cushion and saving irrigation water. The system includes drains with a filter of the top 1 and bottom 2 Rus. The drains of each tusk are laid horizontally on the filtering bases through the calculated interline distances B ₁ (for the upper tier), B ₂ (for the lower tier) and with the construction depths of H ₁ and H _2, respectively, from the ground surface. The drains of both Rus are mated with a drainage collector 3. A shield regulator 4 is located at the mouth of the collector 3. The shield panel regulator 4 is located in the well and is made with two fixed positions of the float corresponding to the drainage standards of each Russ. 2 Il.

Description

The invention relates to land reclamation and can be used in the construction of closed drainage systems on saline soils.

The purpose of the invention is the maintenance of an optimal water-air regime of soils in accordance with the phases of plant development by creating a fresh pillow and saving irrigation water.

In FIG. 1 shows a system, general view; in FIG. 2 - switchboard regulator.

The system includes drains with a filter of the upper 1 lower 2 tiers. Drains of each tier are stacked horizontally on a filter base via drain spacing calculated Bi (for the upper timber) and _B2 (for the lower beam) respectively with construction depths H \ u / 7 from the surface ₂ & whether se.

The drains of the upper 1 and lower 2 tiers are associated with a drainage collector 3. A shield regulator 4 is located at the mouth of the collector 3. A shield regulator 4 is located in the well and is made with two fixed positions of the float 5 corresponding to the norms of draining each tier.

The system operates as follows.

Drainage water enters the drains of the upper tier 1 until the groundwater level drops to the level 6 of the depression curve and the pumping station 7 periodically drains the drainage inflow to the lower tier 2 to level 8 of the depression curve. At the same time, by adjusting the groundwater levels depending on maintaining the water-air regime of soils in accordance with the phases of plant development, a fresh pillow is created by means of gravity drainage outflow of the drainage drainage from the drainage collector through a switchboard 4 and pumping pump station 7. If there is the possibility of a gravity drainage of drainage water from the lower tier 2 by the drainage collector 3, then the regulation of the groundwater level to the upper 6 and lower 8 positions of the depression curve is carried out using the shield controller 4 with the installation of its float 5 in the required position. The operating mode of the pumping station 7 is established from the moment irrigation water is supplied to the irrigation irrigation until the penultimate irrigation or water recharging irrigation is completed during the non-vegetation period, and also at the end of the growing season and stops from the moment the last irrigation or water recharge irrigation begins until the last vegetative irrigation during the pump stop period Station 7 operates drainage of the upper tier 1 with a gravity drainage of drainage water, maintaining the level and supply of moisture of groundwater in the fresh pillow zone.

The presence of independently working two tiers of drains increases the drainage prism and the influx of drainage water, reduces the time spent for generating groundwater levels from the initial position to the calculated ones, forms intermediate saturation zones of weakly mineralized groundwater and seasonal freshwater cushion zones during washing and vegetation irrigation, and regulates the occurrence level groundwater and nourishes the root layer of soil from the stock of moisture, fresh pillows, supports favorable water-air regimes chvogruntov active layer during sowing, germination and plant growth, prevents silnomineralizovannyh groundwater participated in making agricultural crops and soil salinity secondary active layer during the growing season.

Claims (1)

Claim A drainage system including drainage of the upper and lower tiers connected to a drainage collector, and a pumping station, characterized in that, in order to maintain optimal water-air regime in accordance with the phases of plant development by creating a fresh pillow and saving irrigation water, the collector is equipped with wellhead part with a shield regulator with the possibility of installation in two fixed positions, corresponding to the norms of drainage of each tier. I