SU648168A1 - Watering system - Google Patents

Description

I The invention relates to irrigation systems with closed pipelines for irrigating agricultural crops. Irrigation systems are known, comprising a transporting pipeline and irrigation pipelines extending from it with outlets 1. For. Water distribution in irrigation pipelines in known systems usually use manual or mechanical actuated valves installed at the intersection of the conveying and irrigation pipelines. In the case of remote or automatic control of the system, it is supplied with additional actuators for valves, such as electric motors. All this complicates the design of the system. The aim of the invention is to simplify the design of the system. This is achieved by the fact that in the proposed system the water distribution devices are made in the form of a well divided by a partition into two parts and a siphon installed in this well. The partition wall divides the well into two parts, one of which is connected to the supply section of the transport pipeline and one or more irrigation pipelines, and to the other - the discharge section of the transport pipeline. Siphon provides water from one part of the well to another. Such an embodiment of the switchgears makes it possible to exclude switchgears with moving parts such as valves and similar elements from the system design. A drain nozzle is connected to a hole in the septum, the cavity of which is connected by a pipe to the cavity of the knee of the siphon. The tube serves to create a vacuum in the cavity of the siphon under the influence of the flow of water passing through the drain pipe. To stop the siphon at the top of its knee, provide for | A hole with a locking device is provided, which serves to communicate the cavity of the ion with the atmosphere.

In Fig. 1 is given the scheme of the irrigation system in the plan; in fig. 2 - water distribution device in the section.

The irrigation system includes a transporting pipeline I, irrigation pipelines 2 with outlet openings and water distribution devices 4. Irrigated furrows 5 are filled with irrigation grooves 5 against the bypass openings of 3 irrigation pipelines 5. Water is supplied to the transporting pipeline I from distributor 6 through an outlet 7 ..

Water distributing devices 4 are a well 8, divided into two parts by a partition 9. A supply section 10 of this pipeline is connected to one of the parts of the well, the front section along the water outlet in the transport pipeline I, and the outlet section II of the other one. same pipeline. The irrigation pipes 2 are also connected to the front part of the well through openings 12. Both parts of the well are siphoned 13 together. A bore 14 may be provided in the partition 9 with a drain outlet 15. The cavity 15 is connected to the cavity 16 of the knee siphon. A hole with a locking device is provided in the upper part of the knee, for example, in the form of a furniture valve 17. This hole serves to communicate the siphon cavity with the atmosphere. The control of this valve can be carried out using sensors 18 humidity, installed on irrigated areas of the floor.

The work of the proposed system is as follows.

Water from the distributor 6 through the outlet 7 through the transporting pipeline I flows to the first distribution device 4 and through the supply section 10 of this pipeline begins to fill the front of the well 8 and, having reached the hole 14, flow the second part of the well 8b. The cross-sectional area of the drain pipe is smaller than the cross-sectional area of the pipeline 1. The type of the pipe of this pipe can be selected by calculating 5% of the water flow through the transporting pipeline 1.

Since the cross-sectional area of the drain pipe 15 is smaller than the cross-sectional area of the transport pipeline I, after the start of the outflow of water through the pipe 15, its level in the front part of the well continues to rise. When the water level closes the hole 14, the vacuum created by the flow of water,

passing through the pipe 15, and the liquid in the tube 16 into the Ko, ieFia siphon bands 13. The water begins to fill the sipho cavity; and then it will flow into the back of the well 8 and further

through the discharge section P of the transport pipeline I to the next water distribution device 4. Water, i.e., with the siphon running, does not flow into the irrigation pipes 3, since the size of the flow sections of the drain pipe and siphon is selected so that the water level in the front part The well did not reach the level of the hole 12 to which these pipelines are connected. To supply water to the irrigation piping, it is necessary to open a hole in the upper part of the siphon using the valves 17, informing the siphon cavity with the atmosphere and thus turning the siphon off from work. The flow of water through this

The snphone stops and its level in the front of the well is increased and reaches the level of the holes 12 through which water begins to flow into the irrigation pipes.

Claims (2)

Invention Formula . An irrigation system comprising a conveying pipeline and irrigation pipelines that depart from it with outlets, as well as distributing devices located at the intersections of these pipelines L), in order to simplify the design, the water distributing devices are made in the form of a partition divided into two. parts of the well, one of which is connected to the supply section of the conveying pipeline and one or more irrigation pipelines, and another - the diverting section of the transporting pipeline, and a siphon1 installed between these parts of the well. 2. The irrigation system according to claim 1, which is different from the fact that in automation of the siphon control, in the well partition, below the level of the openings for connecting irrigation pipelines, an opening is made with a drain branch pipe connected to it, the cavity of which is connected tube with a cavity knee siphon. Which, and in the latter, has an opening with a locking device for communicating the siphon cavity with the atmosphere. Sources of information taken into account in the examination 5, I. M. Zyulikov M. Closed irrigation systems. M., “Kolos, 1966, p. 10-- 2, RNS. I. 7,555 Y "" .G u to the sensor / oynzhnostch