RU2175831C2 - Watering device - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: invention relates to mechanized watering and it can used in irrigation by discrete supply of water to moistening sites. Proposed device has accumulating reservoir with siphon communicating by its drain part through collector with watering pipelines, supply pipe with cock and siphon charging mechanism consisting of tube-liquid level pickup in accumulating reservoir, tube-breather, ejector and collector. End of liquid level pickup tube passing through hole in accumulating reservoir and end of breather tube are fitted in seats of collector cover. Ejector is made in form of tube with hole in wall. Lower end of this tube is connected through seat in collector housing with one of watering pipelines, and its upper end is located in space of siphon drain part. Hole in wall of ejector tube is located in collector space lower than end of drain part of siphon. EFFECT: simplified design, improved reliability of watering device. 3 cl, 4 dwg

Description

 The invention relates to agriculture, in particular to the mechanization of irrigation, and can be used for irrigation of crops by discrete supply of water to the foci of humidification.

 A device for discrete irrigation is known, containing irrigation pipelines with micro outlets, a storage tank, a supply tube with a tap, a siphon with a mechanism for charging it and a liquid level sensor tube (RU 2019625 C1, 09/15/1994).

 The disadvantage of this device is the design complexity and low reliability.

 The closest in technical essence to the proposed one is a device for irrigation, including a storage tank with a siphon communicated by a drain part through a collector with irrigation pipelines, a supply pipe with a tap and a siphon charging mechanism consisting of a tube-sensor for liquid level in the storage tank, a breather tube , an ejector and the aforementioned collector, in the sockets in the cover of which are inserted the end of the tube of the liquid level sensor passing through the hole in the wall of the storage tank, and the end of the breather tube (RU 2015661 C1, 15 .07.1994).

 The disadvantages of this known device also consist in the complexity of its design and low reliability of its operation.

 The present invention is to simplify the design and increase the reliability of the device for irrigation.

 The solution to this problem is achieved by the fact that in an irrigation device including a storage tank with a siphon communicated by a drain part through a collector with irrigation pipelines, a supply pipe with a tap and a siphon charging mechanism consisting of a tube-sensor for liquid level in the storage tank, a breather tube , an ejector and the aforementioned collector, in the slots in the cover of which are inserted the end of the tube-liquid level sensor passing through the hole in the wall of the storage tank, and the end of the breather tube, according to the invention, The siphon charging mechanism is made in the form of a tube with an opening in its wall, the lower end of this tube being 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 tube wall located in the reservoir cavity below the end of the drain part of the siphon.

 The distance from the level of the input channels of the irrigation pipelines in the collector to the upper end of the ejector tube is made larger than the distance between the axis of the siphon neck and the axis of the hole in the wall of the storage tank for the liquid level sensor tube.

 In addition, the height of the input channels of irrigation pipelines under the surface of the irrigated area is made greater than the distance between the axis of the siphon neck and the axis of the hole in the wall of the storage tank for the liquid level sensor tube.

 The invention is illustrated by drawings, where in FIG. 1 shows a schematic structural diagram of the device, in FIG. 2 view A in FIG. 1, in FIG. 3 - node B in FIG. 1, a vertical section, in FIG. 4 is a section BB of FIG. 3.

 The irrigation device comprises irrigation pipelines 1 with micro outlets 2, a storage tank 3, a siphon 4, a supply pipe 5 with a tap 6, and a siphon charging mechanism 4, which consists of a liquid level sensor 7 in the storage tank 3, a breather tube 8, an ejector 9 and collector 10.

 The suction part 11 of the siphon 4 is in communication with the storage tank 3, and the end 12 of the drain part 13 of the siphon 4 is communicated through the collector 10 with irrigation pipes 1.

 The collector 10 consists of a housing 14 and a cover 15. In the housing 14 there are through sockets 16 for connecting irrigation pipelines 1, and one socket 16 must always be aligned with the socket in the cover 15, into which the end 12 of the drain part 13 of the siphon 4 is inserted. Cover 15 has two more slots in which the ends of the tube-sensor 7 of the liquid level and the breather tube are inserted 8. The axis of the nest in the cover 15, where the end of the tube-sensor 7 of the liquid level is inserted, must not coincide with any of the axes of the sockets 16 in the housing 14 where the ends of the irrigation pipes 1 are inserted.

 The second end of the tube-sensor 7 of the liquid level is introduced through an opening in the upper part of the wall of the storage tank 3 into the internal cavity of the tank 3. The end of the tube-sensor 7 in the tank 3 is located above the end of the suction part 11 of the siphon 4. The second end of the tube-breather 8 is connected with the atmosphere and is located at or slightly above the axis of the hole in the wall of the storage tank 3 for the passage of the sensor tube 7.

 The ejector 9 is made in the form of a tube with a hole 17 in the wall. The lower end of the ejector 9 is placed in the socket 16, which is located coaxially with the drain part 13 of the siphon 4, and the upper end is in the cavity of the drain part 13. The end 12 of the drain part 13 of the siphon 4 is located in the cavity of the collector 10 above the hole 17 of the ejector 9, but below the level of all input channels of irrigation pipelines 1, except for one with which it is located coaxially.

 A device for irrigation works as follows. Water from the pipeline network through the supply pipe 5 with a certain flow rate set by the valve 6, enters the storage tank 3. Upon reaching this level of water in the storage tank 3, when the part of the sensor tube 7 located in the tank 3 is flooded, it starts up as the siphon, pouring water into the cavity of the collector 10, squeezing air out of it into the atmosphere through the breather tube 8 and flooding the end 12 of the drain part 13 of the siphon 4. Next, the water passing through the opening 17 of the ejector 9 draws air from the cavity of the siphon 4. Siphon 4 starts to work. In this case, water from the tank 3 with a relatively high flow rate through the siphon 4, the cavity of the collector 10, irrigation pipes 1 and through micro outlets 2 is distributed over the irrigated area.

 After emptying the storage tank 3, the end of the suction part 11 communicates with the atmosphere and the siphon 4 is discharged. Subsequently, the cycles of relatively slow filling of the tank 3 and its rapid emptying are automatically repeated.

 The placement of the ejector 9 inside the cavity of the collector 10 and the drain part 13 of the siphon 4 made it possible to simplify the design and increase the reliability of the proposed device in comparison with the prototype. This is due to the fact that there is no need to perform communication channels of the ejector 9 and the level sensor tube 7 with the siphon cavity 4 through its wall. The siphon 4 trigger has become more compact.

 The following features of the device contribute to increased reliability.

 To exclude the case at the time of charging the siphon 4, the water level in the cavities of the collector 10 and the drain part 13 of the siphon 4 is raised to the upper cut of the ejector tube 9, the distance from the level of the input channels of the irrigation pipes 1 to the upper end of the ejector tube 9 is made larger than the distance between the axis of the siphon neck 4 and the axis of the hole in the wall of the storage tank 3 for the tube-sensor 7 of the liquid level.

 To increase the efficiency of creating a vacuum in the siphon cavity 4, the height of the input channels of the irrigation pipelines 1 above the surface of the irrigated area is made larger than the distance between the axis of the neck of the siphon 4 and the axis of the hole in the wall of the storage tank 3 for the liquid level sensor 7.

Claims (3)

 1. A device for irrigation, including a storage tank with a siphon communicated by a drain part through a collector with irrigation pipelines, a supply pipe with a tap and a siphon charging mechanism, consisting of a liquid level sensor in the storage tank, a breather tube, an ejector, and the aforementioned collector, in the slots in the cover of which the end of the tube-sensor for the liquid level passing through the hole in the wall of the storage tank and the end of the tube-breather are inserted, characterized in that the ejector of the siphon charging mechanism is made in the form of a tube ki with a hole in its wall, and the lower 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 said hole in the wall of the tube is located in the cavity of the collector below the end of the drain parts of the siphon.  2. The device according to claim 1, characterized in that the distance from the level of the input channels of the irrigation pipelines in the collector to the upper end of the ejector tube is made larger than the distance between the axis of the siphon neck and the axis of the hole in the wall of the storage tank for the liquid level sensor tube.  3. The device according to claim 1 or 2, characterized in that the height of the input channels of the irrigation pipelines above the surface of the irrigated area is greater than the distance between the axis of the siphon neck and the axis of the hole in the wall of the storage tank for the liquid level sensor tube.

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