RU2728352C1 - Water intake structure of low-pressure drip irrigation system - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to hydraulic engineering for land reclamation purposes. Water intake structure is located in lined channel (1) and comprises water discharge pipeline (5) with control device and water intake (3), inlet head of which is made in form of filtering panel (4) with perforation with size smaller than size of weeds. Water intake filtering panel is arranged in the plane of facing of slope (2) of the channel in different horizons of the water flow containing the least quantity of pollutants.EFFECT: water intake without creation of additional hydraulic resistance in the channel, supply to the pipeline network of water cleaned from water loopholes at provision of hydraulic head transfer.1 cl, 9 dwg

Description

The invention relates to the field of hydraulic engineering for the purposes of land reclamation and is intended for water intake from reclamation canals, its cleaning from weeds (litter and hydrobionts) and supply to low-pressure drip irrigation systems.

Known tubular outlet from the canal (Hydraulic structures and fish ponds: study guide / M.V. Nesterov, I.M. Nesterova. - Minsk: New knowledge; M .: Infra-M, 2016. - 682 p.; Fig. 8.6 and 8.8), consisting of an inlet head arranged in the slope of the channel, a regulating device, a drainage (water-transporting) pipe and an outlet head for supplying water to the pond (reservoir).

The disadvantage of the analogue is the lack of purification of the taken water from weeds (litter and hydrobionts), which disable the fine filters of drip irrigation systems, and the creation of an additional hydraulic resistance in the channel by the input head.

The closest technical solution, taken as a prototype, is a water intake structure for water intake from a lined channel (RU # 2606282), consisting of a filtering panel arranged in its bottom and a water intake gallery located under it. From the water intake galleries, water is fed by gravity into the storage pool, from which it is delivered to the irrigated areas.

The disadvantage of the prototype is the impossibility of using the water pressure in the channel for the pressure movement (flow) of the water flow and the transfer of excess pressure from the difference in water levels in the channel and the drainage (water transport) pipe into the pipeline network of the drip irrigation system.

The purpose of the invention is water intake without creating additional hydraulic resistance in the canal, supplying the drip irrigation system to the pipeline network of water purified from contaminants while ensuring the transmission of the hydraulic pressure created at the structure due to the difference in water levels in the canal and the drain pipe

The technical result, to which the claimed invention is directed, consists in the development of the design of the water intake structure, which excludes the creation of additional hydraulic resistance in the channel from the inlet head of the water intake structure and ensures the constancy of water levels in the water intake, the transfer of pressure in it to the drainage pipeline and cleaning of debris (litter and hydrobionts) supplied to the drip irrigation system.

The specified technical result is achieved through the use of a water intake structure of a low-pressure drip irrigation system, arranged on a lined canal and including a water intake and a drainage pipeline with a regulating device, characterized in that the water intake is made in the form of an inlet head of a tubular water outlet from the channel, the water inlet surface of which is made in the form of a filter a surface located in the same plane with the channel lining, with perforations smaller than the size of the weeds. The water intake, arranged in the slope of the canal, is blocked along the slope by a filtering panel located in different horizons of the water flow in the canal, depending on the content of pollutants in them. The dimensions of the filtering surface are linked to its cultivation capacity, water intake flow rate, which ensures the constancy of the water level (pressure) difference in the channel, water intake and drainage pipeline.

The constructive solution of the intake structure of the low-pressure drip irrigation system is illustrated in Fig. 1, fig. 2, fig. 3, fig. 4, figs. 5, figs. 6, fig. 7, figs. 8, figs. 9. In FIG. 1 shows a general view of the structure. FIG. 2 shows a top view of a canal slope section with a water intake structure. FIG. 3 shows a section A-A. FIG. 4 shows a top view of the canal slope section with a variant of the intake structure that takes water from the upper part of the water stream. FIG. 5 shows the section BB. FIG. 6 shows a top view of a section of the slope of the canal with a variant of the intake structure that takes water from the middle part of the water stream. FIG. 7 shows a section B-B. FIG. 8 shows a top view of the canal slope section with a variant of the water intake structure that takes water from the lower part of the water stream. FIG. 9 shows a section Г-Г.

The water intake structure of the low-pressure drip irrigation system (Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9) is located in the lined drainage channel 1 and is built into its slope 2. The intake structure includes a water intake 3, filter panels 4 and a drainage pipeline 5 with a regulating device (not shown).

The water intake device functions as follows. Water from channel 1, passing through filtering panels 4, is cleaned of contaminants (litter and hydrobionts) and enters the water intake 3, from which, through the drainage pipeline 5, equipped with a regulating device (not shown), is supplied to the drip irrigation network (not shown). The water intake panels, depending on the conditions of distribution of pollutants over the water layer, can be located in the upper, middle or lower part of the canal slope, which ensures a minimum supply of contaminants to the filter panels. The minimum difference in water levels in the water intake and the canal is ensured by the excess of their culverts over the water intake flow from the water intake. Due to the fact that the surface of the filtering panels lies in the same plane with the lining of the slope, no additional hydraulic resistance from the inlet head is created in the channel.

Claims (1)

Water intake structure of a low-pressure drip irrigation system located in a lined canal and including a drainage pipeline with a regulating device and a water intake, the inlet head of which is made in the form of a filter panel with a perforation smaller than the size of weeds, characterized in that the water inlet filter panel is arranged in the plane of the channel slope lining in water flow horizons of different heights, containing the least amount of pollutants.

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