RU2022317C1 - Culvert water outlet - Google Patents

Abstract

FIELD: irrigation systems. SUBSTANCE: fitted on head with conical deflector is cylindrical gate with hydraulic drive made in form of axially sliding casing which forms, together with nozzle and partition, two spaces. Each space is connected by control pipes with hydraulic distributor made in form of tubular housing with cylindrical spool valve and connected by lever with post of float. EFFECT: enhanced reliability of operation. 2 cl, 8 dwg

Description

 The invention relates to irrigation systems, and in particular to automatic devices of a water flow damper for a main pipeline from which water is drawn into irrigation systems.

 The purpose of the invention is to increase the reliability at high water consumption.

 In FIG. 1 shows an automatic tubular outlet; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1, the position of the cylindrical spool of the valve when the shutter is open; in FIG. 4 is a section BB in FIG. 3; in FIG. 5 is a section GG in FIG. 3; in FIG. 6 is a section BB in FIG. 1, the position of the cylindrical spool of the valve when the shutter is closed; in FIG. 7 is a section DD in FIG. 6; in FIG. 8 is a cross-section EE in FIG. 6.

 An automatic tubular water outlet contains a pressure pipe (pipe) 1 fixed in the base 2 of the structure, ribs 3 welded in two mutually perpendicular planes, a cone-type shutter 4 is welded to the ribs 3, operating in the mode of discharge into the atmosphere. On the outer surface of the pipe 1, a rigidly annular partition 5 is fixed, along the outer contour of which an annular movable casing is placed 6. The partition 5 divides the sealed chamber into the left 7 and right 8 cavities. One end of the casing is rigidly attached to the nozzle 9 with the possibility of axial movement relative to the outer surface of the pipe 1. The lower downstream 10 of the water outlet communicates through an opening 11 with a container (well) 12 in which the float 13 is placed. The float through the rack 14 and the hinge 15 is connected to the lever 16 with the possibility of rotational movement in the control valve 17. The control valve 17 is attached to the wall of the tank 12. The two-position control valve 17 is made in the form of a valve 18 (plug) with a protruding shank attached to the lever 16. Zolotni to 18 is made with a Central hole 19 and with two radial holes 20 and 21, and two flats 22 and 23 for draining water. In addition, the Central hole 19 is connected to the internal cavity 24 of the pressure pipe 1 through the pipe 25 of the hydraulic connection. Each cavity 7 and 8 of the sealed chamber, separated by an annular partition 5, is connected via tubes 26 and 27 to the switch housing 28, in which there are radial holes 29, 30, 31, 32 and an end hole 33, the tube 25 is adjacent to the latter, and the holes 30 and 31 are drain, and tubes 25 and 27 are connected to holes 29 and 31. Radial holes 29, 30, 20 and flat 22 are in the same plane of the cross section (Fig. 4), respectively, radial holes 31, 32, 21 and flat 23 are also in the same section plane (Fig. 5).

 Automatic tubular outlet works as follows.

 Pipeline 1 is under pressure, and if the level in the downstream is less than the calculated one, then water from pipeline 1 enters the downstream 10 of the water outlet and then into the outlet conduit (not shown) and at the same time through hole 11 passes into well 12, where the valve 17 with spool 18 are in the "open" position. Therefore, water enters from the inner cavity of the pipe 1 through the hydraulic tube 26 and the central hole 33 into the cavity of the spool 18 and then through the combined holes 31 and 32 in the housing (Figs. 3, 4, 5) fills the internal cavity 7 of the sealed chamber under pressure. The annular casing 6 moves under pressure along the pipe 1 to the side, and nozzles 9 open the culvert section of the conical shutter 4, - the water flow increases. At the same time, the volume of the inner cavity 8 is reduced due to the flow of water from it through the hydraulic tube 26 and the aligned holes 29, 30, through the flats 22 (Fig. 4).

 Thus, water from the inner cavity 8 of the chamber is discharged into the atmosphere.

 The water level in the lower pool (n.a.) rises to 34, while the float 13 also rises, turning the spool 18 through the stand 14, the hinge 15 and the lever 16 around its axis. The spool 18 in the housing 28 occupies the position shown in FIG. 6, 7, 8.

 Water from the inner cavity of the pipeline 1 enters through the tube 25 into the cavity of the spool 18 and then through the combined holes 27 and 31 in the housing 28, the tube 26 fills the internal cavity 8 of the sealed chamber under pressure. The annular casing 6 moves along the tube 1 to the right side, moving the nozzles 9. The opening area of the water outlet conical valve 4 decreases, thereby reducing the flow of water through the valve. At the same time, the volume of the inner cavity 7 decreases due to the flow of water through the tube 27, the combined holes 21 and 31, through the flats 23, and its discharge occurs into the atmosphere. The water level 34 drops to the calculated one. To prevent possible splashing out of water, an overhead plate (not shown) can be installed over the valve head 4 when used for closed pipelines.

 Thus, part of the energy of the water flow is quenched and the accuracy of stabilization of the water level in the downstream after the conical shutter is increased, i.e., after the quenching of the flow, the specified flow is directed to the discharge conduit.

The advantages of the proposed device compared to the prototype are that, for example, when re-adjusting 300 million m ³ to the irrigation water reservoir in only four years, it is possible to delay the full operation of the reservoir and save up to 58 million m ^{3 of} irrigation water without affecting the water availability of irrigated lands during this period.

Claims (2)

 1. AUTOMATIC TUBULAR INLET, including horizontally mounted tubular nozzles with a conical reflector, a cylindrical shutter mounted on the nozzle with the possibility of axial movement, and a shutter drive with a float and lever, characterized in that, in order to increase reliability in operation at large water flow rate, the actuator is made in the form of an annular casing rigidly connected to the shutter mounted on the nozzle behind the shutter with the possibility of axial movement and forming a tight seal with the nozzle Yeru annular baffle rigidly affixed to the nozzle and divides the chamber into two annular cavities, the control valve, which is connected to the float arm, and three control pipes, one end of which is connected respectively with the cavities and cavity nozzle chamber, and the other - with the control valve.  2. The water outlet according to claim 1, characterized in that the valve is made in the form of a hollow tubular body with four radial holes and a cylindrical rotary valve with a central hole, two radial holes and two flats, and the control pipe connected to the nozzle cavity is connected to the central the spool hole, other pipes to the radial holes of the body, and the float lever is attached to the end of the spool.

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