SU1667735A1 - Irrigation pipeline outlet - Google Patents

Abstract

The invention relates to agriculture and can be used in irrigation systems for surface irrigation, using irrigation water containing long-fiber inclusions or livestock breeding drains. The purpose of the invention is to increase operational reliability. The device comprises a hollow body mounted on the irrigation pipe with 2 outlets. The hollow body is in the form of an open coupling 1 with pressure plates, made in the form of stiffeners 4. The water outlet is equipped with a nozzle 3 installed in the water outlet orifice with smoothly coupled inlet 11 and outlet 12 channels, the axes of which form an angle of 100-150 ° between them. The input channel 11 is directed in the direction opposite to the direction of flow. The axis of the input channel 11 is located in the horizontal plane and forms an angle of 0 to 90 ° with the axis of the irrigation pipeline. The nozzle 3 is provided with a collar with notches, made in increments along its perimeter. On the irrigation piping installed with the ability to interact with the cut-out collar stopper. 1 hp F-ly, 1 tab., 4 Il.

Description

The invention relates to agriculture and can be used in irrigation systems for surface irrigation, using irrigation water containing long-fiber inclusions or livestock breeding drains.

The purpose of the invention is to increase the operational reliability of the outlet.

FIG. 1 shows the outlet, general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 is a view B in FIG. one; in fig. Figure 4 shows a graph of the change in discharge flow rate (q, l / s) when turning its nozzle relative to the flow velocity vector.

The irrigation pipeline water outlet consists of a hollow body in the form of an open coupling 1 installed on the irrigation pipeline 2 with water outlets in which nozzles 3 are installed. Coupling 1 is made of elastic material, has partitions in the form of stiffeners 4, forms on the surface of the pipeline 2 Conductive chamber 5 and water outlet slots 6 and 7. On the side surface of the coupling there is a protrusion 8, forming an additional pressure chamber 9. As it were, on the irrigation pipe 2, the coupling 1 is fixed with fixing elements 10 s.

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The nozzle 3 in the outlet of the irrigation pipe 2 is installed with the possibility of rotation around the axis of the hole. In the nozzle 3 there are two smoothly connected channels: the input channel 11 and the output channel 12, which are located at an angle between them in the range from 100 to 150 °, and the input channel is made with an axis located in the horizontal plane. The nozzle 3 is installed in the pipeline 2 so that its inlet channel 11 has a direction opposite to the direction of flow in the pipeline 2 or an angle of 0 to 90 ° with it. The angle at which the inlet channel 11 and the outlet channel 12 of the nozzle 3 were made was determined as a result of experiments on clogging of the outlet for irrigation with cattle drains.

The results of the experiments are given in the table, according to which the optimal angle between the channels of the nozzle is selected, at which the smallest number of clogging of the channels of the nozzle occurs, this angle is 100-150 °.

In order to carry out a fixed rotation of the nozzle 3, it is provided with a shoulder 13, along the perimeter of which notches 14 are made, for example, in 15 ° steps, and a stop 15 in contact with the notches 14 is arranged on the irrigation pipe 2. For even distribution of fluid from 2 outlets installed on the pipeline 2 during installation, it is rotated to its optimum installation angle a, determined during the pilot test of the outlet, the results of which are shown in the graph (Fig. 4).

Water outlet irrigation pipeline works as follows.

After adjusting the rotation of the nozzle around the axis of the outlet, the flow rate of fluid through each outlet, served in

irrigation pipeline 2 livestock drains. The liquid from the pipeline 2 through the channels of the nozzle 3 enters the pressure chamber 5 and coaxially with the water outlet hole is located additional water chamber 9, where, facing the partitions 4, extinguishes its head and pours out through the water outlet slots 6 and 7. At the same time the fluid withdrawal components of its flow rate are parallel and oppositely directed. Due to the smooth rotation of the channels of the water outlet, a sharp bend and pressing to the walls of the long-fibrous structures does not occur, they do not

they envelop the edges of the inlet channel 11, and pass freely into the inlet chambers 5 and 9. No accumulation of fibrous structures in the chambers and clogging of the outlet slots in the chambers were observed.

Claims (2)

1. A water outlet irrigation pipe containing a hollow body mounted on the irrigation pipe with outlet openings having the form an open coupling with pressure plates, made in the form of stiffeners, characterized in that, in order to increase operational reliability, it is equipped with a rotating nozzle installed in the water outlet hole with smoothly coupled input and output channels, the axes of which form an obtuse angle between them, the input channel is directed in the direction opposite to the direction of flow, and its axis is located in a horizontal plane at an acute angle to it. 2. Water outlet according to Claim. 1, characterized in that the nozzle is provided with a collar with cutouts made with a step along its perimeter, and on the irrigation pipe is installed with the ability to interact with these cutouts a stopper. w Direction flow / I i  Direction .VI 11L-1, ll tA3 Input Channel Riga.1 VidB 14 Iff 13 Aa 13 2  Direction VI 11L-1, ll 3 Input Channel