RU2485765C1 - Set of locally-impulse watering - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to mechanisation of watering and can be used for irrigation of agricultural crops by discrete (impulse) water supply in the centers of moistening. The set of locally-impulse watering comprises a storage container, a feeding tube with tap, a siphon with the drain outlet, a receiver-collector and irrigation pipes with water outlets. The water outlets are made in the form of microtubes connected with the inlet ends to the irrigation pipes, and with the outlet ends - with the atmosphere. The irrigation pipes are located below the outlet ends of the microtubes. The receiver-collector cavity is hermetically connected to the drain outlet of the siphon. The upper and lower ends of the receiver-collector are communicated respectively with the atmosphere above the level of the drain outlet of the siphon and with the irrigation pipes at the level of the irrigated area.

EFFECT: increased reliability and efficiency of operation of the set and uniform distribution of irrigation water through the water outlets.

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Description

A set of locally pulse irrigation refers to agriculture, in particular to the mechanization of irrigation, and can be used for irrigation of crops by discrete (pulsed) water supply to the foci of moisture.

A device for irrigation (kit) is known, comprising a storage tank with a siphon connected with a drain part with irrigation pipes, a siphon charging mechanism and a supply pipe with a tap, while the drain part of the siphon is connected with irrigation pipes by means of a collector equipped with tubes with openings in the walls in its cavity, while the siphon is made in the form of a bundle of tubes, the drain part of each of which is in communication with the corresponding collector tube [1].

The disadvantage of this device for irrigation is the lack of uniformity in the distribution of irrigation water over water outlets due to the influence on the start of the siphon of the state of irrigation pipelines and due to the different duration of the launch of irrigation pipelines.

A device for irrigation (kit) is known, including a storage tank with a siphon communicated by a drain part through a collector with irrigation pipes, a supply pipe with a tap and a siphon charging mechanism, while the ejector of the siphon charging mechanism is made in the form of a tube with holes in its wall, the lower the end of this tube is articulated through a through socket in the collector body with one of the irrigation pipelines, and its upper end is located in the cavity of the drain part of the siphon, while the aforementioned hole in the wall of the tube is located wife in the cavity of the collector below the end of the drain part of the siphon [2].

The disadvantage of this device for irrigation is the low reliability due to the influence of the state of the irrigation pipe on the start of the siphon, insufficient uniformity of distribution of irrigation water through the outlets due to the dependence of the duration of the start of the siphon on the hydraulic conditions of the irrigation pipe associated with the ejector. Installing the collector above the level of the irrigated area and connecting the inlet ends of the irrigation pipelines to it leads to a deterioration in the distribution of the siphon drain flow between the irrigation pipelines in the final phase of its operation. Installation of water outlets at the level of irrigation pipelines leads to undesirable emptying of irrigation pipelines after each irrigation, which worsens the uniform distribution of irrigation water over the site and increases the duration of the next set up. This design of water outlets makes it difficult to grow the plant in small containers and to supply irrigation water directly to the root system of the plant, which generally reduces the effectiveness of the kit.

The aim of the invention is to increase the reliability and efficiency of the kit and improve the uniform distribution of irrigation water through outlets.

This goal is achieved by the fact that in the set of local-pulse irrigation, which includes a storage tank, a supply tube with a tap, a siphon with a drain outlet, a collector receiver and irrigation pipelines with water outlets, the water outlets are made in the form of microtubes connected by input ends to irrigation pipelines, and the outlet - with the atmosphere, while the irrigation pipelines are located below the outlet ends of the microtubes, and the cavity of the collector-receiver is hermetically connected to the drain outlet of the siphon, and its upper and lower ends are connected us, respectively, with the atmosphere above the level of the drain outlet of the siphon pipes and irrigation on irrigated land level.

The invention is illustrated by drawings, where Figure 1 is a wiring diagram of a set of locally pulse irrigation; Figure 2 - view of the kit from the receiver-collector; Figure 3 - storage tank with a siphon, a supply tube and a receiver-collector.

The set of locally pulse irrigation (Fig. 1) consists of a storage tank 1 with a cover 2, a supply tube 3 with a tap 4 and an elbow 5, a siphon 6 with a drain outlet 7 installed in the tank 1 by means of a fixing nut 8, and a collector receiver 9 s nozzles 10, 11, tees 12, 13 (Figure 2) and irrigation pipelines with plugs 15 and microtubes 16. The output end of the microtubes 16 is connected to the upper part of the small container 17. Tee 12 (Figure 3) is hermetically connected to the drain outlet by a horizontal end 7, and the upper and lower ends, respectively, with atmosphere using the pipe 10 and the tee 13 through the pipe 11. The tee 13 and irrigation pipes 14 are installed on the irrigated area, at a level below the output ends of the microtubes 16 and are interconnected.

The set of locally pulse irrigation in the irrigated area is mounted as follows. The storage tank 1 with a siphon 6 is installed above the level of the irrigated area at a height determined by the height of the collector 9. Collect the collector 9 by means of pipes 10, 11 and tees 12, 13 and hermetically connect to the drain outlet 7 using the horizontal end of the tee 12. Irrigation pipelines are successively laid on the surface of the irrigated area so that their free ends are directed towards the storage tank 1 and connected to the outlet openings of the tee 13 of the collector-9 (Fig. 1). The inlet ends of the microtubes 16 are connected to the irrigation pipelines 14, and the outlet ends are installed at the upper level of the low-volume containers 17. At one end, the supply tube 3 is connected to a water source, and the other to a tap 4 and then, using an elbow 5, with the cavity of the storage tank 1. Close the storage tank 1 with a cover 2. The kit is ready for use.

A set of locally pulse irrigation works as follows. Water from the source through the supply tube 3, the elbow 5, with a certain flow rate set by the valve 4, enters the storage tank 1 (Figure 3). The water level in the tank 1 begins to rise slowly from the lower level (NU). In this case, the siphon 6 eliminates the possibility of water leakage from the tank 1 through the drain outlet 7 into the cavity of the collector 9. When the water level in the tank 1 of the upper level (WU) is reached, the siphon 6 abruptly starts up and the accumulated water from the tank 1 with a high flow rate through the drain outlet 7 enters the cavity of the collector-receiver 9, then through irrigation pipelines 14 with plugs 15 it is evenly distributed over the irrigated area through microtubes 16 in the form of streams, performing local-pulse watering of small containers 17. When the level is reduced nya water in the storage tank 1 to NU siphon 6 is rarefied and watering stops. In the future, while water enters the storage tank 1, the cycles of relatively slow filling of the tank 1 and its rapid emptying are automatically repeated and perform local-pulse watering of the containers.

Improving the reliability of the kit is achieved by eliminating the influence of the state of irrigation pipelines on the start of the siphon 6, by tightly communicating the cavity of the receiver-collector 9 with a drain outlet 7 and with an atmosphere above the level of the drain outlet 7.

Improving the efficiency of the kit and improving the uniformity of distribution of irrigation water between containers 17 is achieved by performing water outlets in the form of microtubes 16 located at the outlet ends above the level of irrigation pipelines 14, due to which, after irrigation, the irrigation pipelines remain filled with water, which contributes to the fast next run of siphon 6 and quick installation irrigation regimes, which ultimately lead to increased uniformity of irrigation of containers 17.

Thus, the implementation of water outlets in the form of microtubes located at the outlet ends above the level of irrigation pipelines, and the drain outlet 7 is sealed with the cavity of the receiver-collector 9, and the cavity of the receiver-collector with an atmosphere above the level of the drain outlet 7 has improved the reliability and efficiency of the kit and improved uniform distribution of irrigation water between containers 17.

In the conditions of the workshops of FBGNU VNII "Rainbow" in 2011, an experimental sample of the proposed set of locally pulse irrigation was manufactured. Tests of the sample in laboratory conditions showed a significant improvement in the uniformity of the distribution of irrigation water through outlets compared to the prototype.

The application of the invention will increase the efficiency of discrete irrigation systems of crops.

Claims (1)

A set of locally pulse irrigation, including a storage tank, a supply tube with a tap, a siphon with a drain outlet, a collector receiver and irrigation pipelines with water outlets, characterized in that the water outlets are made in the form of microtubes connected at the input ends with irrigation pipelines and the output ends with atmosphere, and irrigation pipelines are located below the outlet ends of the microtubes, while the cavity of the receiver-collector is hermetically connected to the drain outlet of the siphon, and its upper and lower ends are communicated accordingly tween the atmosphere above the level of the drain outlet of the siphon pipes and irrigation on irrigated land level.

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