RU2052013C1 - Water intake for irrigation system - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: water intake of irrigation system has well 6 brought in communication with water source which is connected through its wall 5 with discharge water conduit 1 and discharge canal 2; besides that, water intake is provided with filtering element 7 fitted on shaft 4 connected with drive. Water conduit is located under discharge canal 2 and is provided with inlet cap 3; shaft 4 is mounted on wall 5 of well 6 above discharge canal 2; filtering element 7 which is tubular in form and bow-shaped in vertical plane is mounted in wall 5 of well 6 above inlet cap 3 and is connected to shaft 4 by means of bent rod 8; front portion of filtering element 7 is provided with screen flange 9 and its rear portion is provided with blank 10 and circular seal 11; lower portion 12 which is watertight is provided with water flowing port 13 in rear portion which brings filtering element 7 in communication with inlet cap 3. Device is provided with crescent-shaped knife 14 mounted in wall 5 of well 6 above filtering element 7 and with counter-weight 15 secured to shaft 4 above discharge canal 2; length of arc of filtering element 7 is about 60 deg. EFFECT: high quality of purified water and savings in electric power. 3 cl, 3 dwg

Description

 The invention relates to hydraulic engineering, in particular to a device for cleaning water from debris and automatic washing of the filter.

 A water intake structure is known, including a chamber with diametrically located inlet and outlet channels, a rotatable mesh web attached to the vertical axis with a drive, and a fish outlet, in which the camera is cylindrical, and a fish outlet in the form of paths opposite each other between the inlet and outlet channels, moreover, curved shutters are fixed at the ends of the mesh web, alternately overlapping the sections of the paths, and latches are fixed on the inner sides of the chamber walls to limit shutter position.

 The disadvantages of this structure are as follows: possible jamming of fish and floating debris that occurs when the phase of the periodic part-turn rotational movement of the mesh web changes, when the edge of the web approaches (after it passes through the clearance of fish breeding) to the place where the side of the fish branch with the cylindrical chamber is connected, which leads to the functioning of the device in a mode with incompletely blocked one fish outlet and incompletely open with another, which reduces the efficiency of the known device; significant energy costs for the implementation of periodic part-turn rotational movement of the mesh web with curved gates on the vertical axis.

 The purpose of the invention is improving the quality of purified water saving electricity.

This goal is achieved by the fact that in the intake device of the irrigation system, including a well communicated with the water source, to which a discharge conduit and a discharge channel are connected through its wall, and a filter element mounted on a shaft connected to the drive, the discharge conduit is located under the discharge channel and is made with a vertical inlet head, the shaft is mounted on the wall of the well above the discharge channel, and the filter element is made tubular and curved in a vertical plane, mounted in the wall of the well above the inlet head of the outlet conduit and attached to the shaft by means of a curved rod, the front part of the filter element being made with a mesh flange, the rear part with a plug and an O-ring, and the lower part waterproof with a culvert in the rear part communicating the cavity of the filter element with an input head; while the device is equipped with a sickle-shaped knife mounted in the wall of the well above the filter element, and a counterweight attached to the shaft above the collection channel, and the filter element is made with an arc length of 60 ^about .

 This embodiment of the water intake device of the irrigation system allows, in comparison with the prototype, to achieve a better degree of water purification due to better washing of the filter element during its arcuate movements (a non-zero angle between the direction of movement and the line of the greatest change in pressure contributes to induction in the layers bordering with the filter element water jet stream with sufficient flushing efforts); to save part of the drive’s electric energy on a half-cycle (transferring the device from the regeneration mode of the filter element to the operating mode) in connection with the loading action of the counterweight; to achieve these positive effects through the use of a sickle-shaped knife and a more compact arrangement (for example, the placement of the outlet conduit under the discharge channel) of the elements of the device. At the same time, the compact arrangement of the device elements, reducing the path lengths of water currents, also improves water purification and energy saving, and the sickle knife on the half-cycle (transferring the device from the operating mode to the regeneration mode of the filter element), clearing it of debris, provides additional clarification of water .

 In FIG. 1 shows the proposed water intake device in longitudinal section, the regeneration mode of the filter element; figure 2 water intake device in operating mode; figure 3 section aa in figure 2.

 The intake device of the irrigation system contains a discharge conduit 1 located under the discharge channel 2 and made with a vertical inlet head 3, a shaft 4 mounted on the wall 5 of the well 6 above the discharge channel 2, a filter element 7 made tubular and curved in a vertical plane, installed in the wall 5 of the well 6 above the inlet head 3 of the outlet conduit 1 and connected to the shaft 4 by means of a curved rod 8, the front part of the filter element 7 being made with a mesh flange 9, the rear part is behind a plug 10 and an O-ring 11, and the lower part 12 is waterproof with a culvert 13 in the rear, communicating the cavity of the filter element 7 with the inlet tip 3.

The water intake device is also equipped with a sickle knife 14 mounted in the wall 5 of the well 6 above the filter element 7, and a counterweight 15 attached to the shaft 4 above the discharge channel 2, and the filter element 7 is made with an arc length of approximately 60 ^about . To reduce the force applied to rotate the filter element 7, a counterweight 15 is used, to maintain a stable cross-sectional shape (circle) of the filter element 7, it has stiffeners 16, and its rotation is carried out by means of a drive.

 The water intake device of the irrigation system operates as follows.

Water coming from the well 6 through the side surface of the filtering element 7 into its cavity (Fig. 2) is cleaned and sent through the culvert hole 13 in its rear part, the vertical inlet head 3 to the outlet conduit 1 (located under the discharge channel 2) and then into the irrigation system. If the surface of the filter element 7 becomes clogged, the drive 4 is turned on and the filter element 7 is connected to it by a curved rod 8 counterclockwise by about 60 ^° with its movement from the tank 6 through its wall 5 to the tank of the discharge channel 2 located above the outlet conduit 1. This also raises the counterweight 15 attached to the shaft 4.

 In the process of moving the filter element 7 counterclockwise, debris is removed from its surface by means of a sickle knife 14 installed in the wall 5 of the well 6 above the filter element 7. The filter element 7 is set to the initial position for washing it in the cavity of the discharge channel 2, the culvert 13 the upper position, the annular seal 11 provides the obstruction of water from the cavity of the filter element 7 (through the annular gap around the perimeter of the mesh flange 9 in the front of the filter element coagulant 7 between the wall 5 and 6 wells) in pit 6 and vice versa (FIG. 1). Water from the well 6 under pressure H, passing through the mesh flange 9 in the front of the filter element 7, is cleaned and enters its cavity, flowing out of it through the side surface of the filter element 7 (excluding its lower 12 waterproof part), cleans it of debris which, together with the wash water, flows into the discharge channel 2.

 At the end of the washing, the filter element 7 is turned clockwise to its original operating position under the influence of the drive and the counterweight 15 so that the culvert 13 coincides with the end hole of the vertical inlet head 3, and the annular seal 11 provides water obstruction through the annular gap around the perimeter of the plug 10 the back of the filter element 7 (figure 2).

 The full washing of the filter element 7 is facilitated by the static pressure H in the well 6, under the influence of which water fills the cavity of the filter element 7 up to the level of the culvert window 13 in its rear part.

The economic efficiency of the intake device of the irrigation system consists of increasing the degree of water purification due to more complete use of the static pressure in the well and from saving energy when the filter element is periodically moved in an arc-like manner by no more than 60 ^° , and the return of the filter element to its working position additionally contributes to the impact counterweight.

Claims (3)

 WATER INTAKE OF THE IRRIGATING SYSTEM, including a well communicated with the water source, to which a discharge conduit and a discharge channel are connected through its wall, and a filter element mounted on a shaft connected to the drive, characterized in that the discharge conduit is located under the discharge channel and is made with a vertical inlet with a tip, the shaft is mounted on the wall of the well above the discharge channel, and the filter element is made tubular and curved in a vertical plane, installed in the wall of the well above the inlet ohm discharge conduit and connected to the shaft by means of a bent rod, the front portion of the filter member is formed with a grid flange, rear - with a plug and the annular seal, and the lower portion is waterproof with culvert window in the rear part, to reporting a cavity of the filter element with an inlet head part.  2. The device according to p. 1, characterized in that it is equipped with a sickle-shaped knife mounted in the wall of the well above the filter element. 3. The device according to PP.1 and 2, characterized in that it is equipped with a counterweight attached to the shaft above the discharge channel, and the filter element is made with an arc length of 60 ^o .

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