RU2561436C1 - Double-acting irrigation system - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: double-acting irrigation system consists of a source of irrigation, in which a water lift is mounted in the form of a hydraulic ram to lift the water to elevated areas of land. The rise of water is supplied to the supply pipeline 2, then to the storage container 3 connected through the inclined connecting pipe 5 with the shutter 6 and the well 4. The middle part of the well is attached to the double-acting irrigation network in the form of drains 7. The water lift in the form of a hydraulic ram, mounted at the river, channel, reservoir has a partitioning jumper, a tubular pipe, an accumulation chamber, a curved shutter in the form of a sector with the axis of rotation, a float with a shutter, at the end part of the supply pipeline there is a beater chamber of round section, inside which a stroke valve is mounted. The float locking device consists of a horizontal double-arm lever 42 with a rod 43 and a large float 44 and a rod 45 with a small float 46 and a support 47. One arm of the double-arm lever 42 is provided with a valve 48, and the other - with a segment shield 49, overlapping the inlet pipes of the drains 7. The double-arm lever is provided with the ability of movement for equilibration and reduction of effort on the side of the segment shield 49 with float drives in the form of large 44 and small 46 floats which can be moved along the screw of the rods 43, 45 pivotally attached to one arm of the lever. The segment shield 49 is mounted on the inlet pipe of the drain 7 with the ability of abutment in the closed position by the limiter 50.

EFFECT: invention expands the range of technical means intended for the double-acting irrigation system with a complex relief, enables to reduce the depth of the well and to increase its efficiency of operation.

3 cl, 4 dwg

Description

The invention relates to hydraulic engineering reclamation and can be used for drainage of land with complex terrain, as well as in mountain and foothill areas.

A well-known drainage and humidification system containing drains, closed conveying manifolds, a humidification channel and wells equipped with hydraulic machines, a humidification channel in the form of a low-pressure pipe with a pressure regulator at the inlet connected to each well by means of a pipe equipped with a diaphragm drive for raising and lowering its end and communicated with a well by means of a diaphragm flow regulator having an adjustable drain hole, while the working cavity of the regulator and actuator comm s to a conduit feeding tubes, and a tube end portion prigruzhen (patent RU №1063924, Cl. E02V 11/00, 1983).

The disadvantage of this system is its complexity, which consists in the oversaturation of the control and actuating elements, which is associated with the action of pumps for supplying water to a water tower that requires electricity. In addition, system reliability is reduced. The lack of additional water supply in steps in difficult terrain conditions cannot use local energy sources, i.e. use the transporting water of a river, canal, collector for lifting water due to hydraulic shock with a water-lifting device (use the energy of open water flows). In such conditions of a water-lifting device, there is no shortage of energy received from the electric pump, and cable products. At the same time, the flow controller is complex in design and unreliable in operation due to the diaphragm drive and the load of nozzles loaded.

Closest to the proposed one is a drainage and humidification system, including transporting channels with retaining structures, drains with control wells connected in the lower part by a pipeline to the transporting channel, control wells are located on hills and communicated in the upper part by an additional pipeline with an upstream channel of the transporting channel, this additional pipeline is equipped with an ejector device installed in the retaining structure of the channel, and the drains are communicated with wells through locking devices (copyright certificate RU No. 1636512, class ЕВВ 11/00, 1991).

The disadvantages of this system is that it requires the installation of deep deaf wells reaching the bottom of the conveying channel, which means a small range of heights of use in complex mountain and foothill areas in their high-altitude location, i.e. the big difference between the top and the location of the water source. In addition, the ejector device in the retaining structure requires an airtight part of the well for connecting an additional pipeline of sufficiently large length, which requires, as a rule, large differences in the upper and lower downstream channels of the channel on the blocking retaining structure, which limits the elevated sections of the relief in relation to the creation of vacuum in the pipeline and accordingly in the well, as a result, the level of water rise will be insufficient for water to enter the drains.

The objective of this solution is to reduce the depth of the well and increase the efficiency of its work by using the energy of compressed air of the water lift, obtained autonomously due to the natural difference in the heights of the wavy relief.

The technical result is achieved by the fact that the drainage and humidification system, including conveying channels with retaining structures, drains with regulating wells, connected at the bottom of the pipeline, regulating wells are located on elevations, and drains are communicated with wells through shut-off devices, the system is equipped with a hydraulic hoist in the form of a hydraulic ram located at the source of irrigation below the topography, and contains a storage tank, which is connected to the well through an inclined of the pipe with an adjustable gate valve, while the drain shut-off devices are made in the form of a two-shouldered lever with locking bodies for drain pipe nozzles, one of which is rigidly fixed to one of its shoulders, and the other shoulder is equipped with an additional large float and a small float and is rigidly connected to the segment one a shield mounted on the inlet pipe of the drain with the possibility of abutment in the closed position to the limiter fixed to the bottom of the drainage pipe, while the two-arm lever is mounted on the axis of rotation.

In addition, the large and small floats are connected to the two-arm lever by rigid rods and are located in one horizontal plane relative to a given water level mark in the well.

In this case, the traction of the two shoulders of the lever in contact with the floats is made in the form of a screw pair, pivotally mounted on one of the shoulders of the lever.

The proposed drainage and humidification system is aimed at eliminating these drawbacks due to the consistency of the inclusion of the water lift and is carried out by setting the operating time of the well assembly with shut-off devices, as well as valves on the connecting pipe, which allows filling the well, and, accordingly, the water level above the top of the humidification drains allows through the float locking devices connected to the two-arm lever to open the water inlet to the drains. The location of the design of the two shoulders of the lever, valve, segment shield, its movement limiter, mounted on the inlet end of the drain, and the operation of two floats in a pair retain practically increased accuracy of maintaining the level in the well by arranging two floats at the same height, different in volume, i.e. . the diameters of which can be different, the stability of the two-shouldered lever with locking devices increases under the external influence of a change in the water level in the well. In addition, since the top of the humidifiers can vary, the altitude location of the two floats in operation can be changed by a helical rod at the attachment point of the base of the float, respectively, this provides a given throughput of humidifying drains. The system takes into account the difference in the wavy terrain (rugged) terrain, mountainous, foothill and lowland areas, the creation of an optimal water-air regime of soils in difficult relief conditions, and this is done in the mode of water supply due to compressed air created by a hydraulic ram generated through the use of water on terrain wavy terrain. The system allows you to fully automate the process of maintaining the water level in the well at a critical level, provides a predetermined amount of water to the drains, which saves water resources. In addition, the design of the two-shouldered lever with a segmented shield makes it possible to reduce the hydrostatic pressure on its lining when opening the shield due to the design of the float system and balance the two-arm lever with locking devices as a whole, as well as pressing them against the heads of the drains, one of which is equipped with a limiter , which improves the quality and accuracy of regulating the water level in the drainage system. In rainy periods, the water lift is shut off from work, and then gravity drainage of these lands is carried out.

A comparative analysis of the claimed technical solution and the prototype shows that in the claimed combination of features, some of the essential features are new, therefore, the claimed solution meets the criterion of "novelty."

In FIG. 1 is a diagram of a drainage and humidification system; in FIG. 2 - connection of a well with a drainage network and a connecting pipe with an accumulation capacity associated with a water elevator located at a retaining structure at a water source; in FIG. 3 is a schematic diagram of a hydraulic ram in the form of a hydraulic ram; in FIG. 4 - float locking device.

The drainage and humidification system consists of an irrigation source (for example, a river, canal, collector), in which a water-lift is installed in the form of a hydraulic ram 1 for raising water to elevated areas of land, i.e. uses the energy of open water currents. The rising water enters the supply pipe 2 of the estimated water flow to elevated areas, a storage tank 3 connected to the well 4, with an inclined connecting pipe 5 with a valve 6. A drainage and humidification network (drains 7) is connected to the middle part of the well 4.

The hydraulic ram 1 is installed in the water source with a partitioned jumper 8 with a short tubular pipe 9 connected to the accumulation chamber 10. A curvilinear shutter 11 (sector) is installed in the water storage chamber, the lever 12 of which is mounted above the tubular pipe 9 in the abutments 13 by means of a rotation axis 14, to which a lever mechanism is mounted, including a rotary lever 15 with a float 16, which is also connected to the curvilinear shutter 11 the form of a locking organ. In the casing of the lower part of the shutter 11, from the side of the pipe 9, an opening 17 is made, blocked by a check valve 18. The float 16 is located in the accumulation chamber 10 connected to the supply pipe 19 with the hole 20. The curved gate 11 is installed with the possibility of overlapping the pipe 9 and the corresponding alternating the overlap of the inlet 20 at the beginning of the supply pipe 19. Due to the presence of stops 21 and 22, the curved gate 11 cannot rise above the pipe 9 and the lower pipe 19, the flow openings of which are overlapping tsya alternately shutter 11 and the float 16 therefore descends or ascends, depending on the water level in the accumulation chamber 10. In the end part of the supply pipe 19 there is a circular cross-section shock chamber 23, inside of which an outlet valve 24 is installed in the form of a throttle valve having a float actuator 25, which through the lever mechanism rotates the valve 24 on the horizontal axis 26. The rod 27 of the float 25 is pivotally connected through a guide lever 28, passed through the wings 29, and the guide 30 is mounted on a vertical wall 31 of the control chamber 32, communicating with the outlet pipe 33 with the inlet 34, with a retaining device in the form of a shield and 35 in the guides 36, with the elevator 37. The flat shield 35 is mounted with the possibility of vertical movement relative to the outlet 34.

In the upper part of the chamber 23 there is a pipe 38, which is rigidly sealed in a flat seat 39 with an opening blocked from above, for example, by a reinforced discharge valve 40 located inside the air cap 41 having a discharge pipe 2 with a storage tank 3 connected to the well 4, to which is connected drainage and humidification drains 7, equipped with float locking devices to enable sections of the drains 7.

The float locking device consists of a horizontal two-shouldered lever 42 with a thrust 43 with a large float 44 and a rod 45 with a small float 46 and a support 47. One shoulder of the two-shouldered lever 42 has a valve 48 to block the inlet end of the drain pipe 7 and the other shoulder of the two-shouldered lever 42 s floats 44 and 46, is rigidly connected to the segment shield 49 to block another inlet pipe of the drain 7 with a limiter 50. To the shoulder of the two shoulders of the lever 42 are pivotally attached rods 43 and 45 and are made in the form of a screw pair connected to the floats 44 and 46

The drainage and humidification system operates as follows. If it is necessary to work the elevated areas of the relief in drainage mode, it is necessary to recharge the drains 7. When the hydraulic ram 1 is turned on, the incoming water into the air cap 41 due to the compressed air accumulated in it in the cap 41, under pressure from the cap 41, the water then flows into the discharge pipe 2, which supplies water to the storage tank 3. (The principle of operation of a hydraulic ram is not shown, since in the general case it can be said that its principle of operation is based on the movement of water in a river, canal, etc. score differential static level Z or dynamic pressure. Water can be raised to a height of 50 m, whereas in the prior art, this lifting device is limited to the very design, i.e. constructive solutions). Thus, the hydraulic ram is powered by water moving in the irrigation source. In the mountain and foothill zone of the system, water is supplied under pressure by means of a hydraulic hoist in the form of a hydraulic ram 1.

The duration of filling the storage tank 3 with water is determined by the operating time of the humidification drains 7 themselves; it is filtered through the pipe joints or using other devices into the soil.

The coordination of the operation of the storage tank 3 is carried out by the operating time of the well 4, the filling of which is regulated by means of a connecting pipe 5 with a valve 6 and a float locking actuator in the well 4. The rods 43 and 45 with the floats 44 and 46 are fixed in a predetermined vertical position by installing a screw pair of rods with floats. The water level in the well 4 will begin to rise when water enters the storage tank 3 into the well 4, as a result of filling the well with water, the floats 44 and 46 of the shut-off devices 48 and 49 will pop up and automatically open the inlet pipes of the drains 7, thereby ensuring a uniform flow of water into the humidification drains 7 to moisten the soil. The arrangement of the design of the lever mechanism with a segment shield 49 and with the valve 48, maintain practically increased accuracy of maintaining the level in the well 4 by the location of the floats large 44 and small 46, respectively, the throughput of the drain 7 is ensured. due to the fact that one of the arms of the lever 42 is broken, with two floats of different sizes, the weight of the segment shield is taken into account.

To operate the system in the drainage mode during spring flood, in autumn and in rainy periods, the hydraulic ram is turned off, and then gravity drainage of these lands along the slopes is carried out.

The proposed drainage and humidification system does not require the generation of scarce energy for high altitudes, both for mountainous and foothill areas of the earth, and in the valley zone, since a hydraulic lift in the form of a hydraulic ram 1 will raise water to a height of 50 m, there is no cable production, work is based only on the source of water entering the hydraulic ram. The system can cover large areas of land located in the indicated relief conditions. All this allows you to save water and increase the life of wells with float shutoff devices and with moisturizing drains, in which the system design is promising and depends on two sources: a hydraulic ram and a well with float shutoff devices working on water in the well and compressed air in the hood with hydraulic ram water, i.e. combined, and their relationship to each other. The application of the proposed drainage and humidification system allows you to reduce the depth of the well, extends its functionality and reduces operating costs in difficult terrain, using local energy sources. In addition, the level of automation and mechanization of the system increases.

Claims (3)

1. Drainage and humidification system, including transporting channels with retaining structures, drains with control wells connected in the lower part of the pipeline, control wells are located on elevations, and drains communicate with wells through shut-off devices, characterized in that the system is equipped with a hydraulic lift in the form of a hydraulic ram located at the source of irrigation below the topography, and contains a storage tank, which is connected to the well through an inclined connecting pipe with adjustable with a shutter, while the draining shut-off devices are made in the form of a two-shouldered lever with locking bodies for drain pipe nozzles, one of which is rigidly fixed on one of its shoulders, and the other shoulder is equipped with an additional large float and a small float and is rigidly connected to the segment shield installed on the inlet pipe of the drain with the possibility of adjacency in the closed position to the limiter fixed to the bottom of the drainage pipe, while the two-arm lever is mounted on the axis of rotation. 2. The system according to claim 1, characterized in that the large and small floats are connected to the two-arm lever by rigid rods and are located in the same horizontal plane relative to a given water level mark in the well. 3. The system according to claim 1, characterized in that the traction of the two shoulders of the lever in contact with the floats is made in the form of a screw pair, pivotally mounted on one of the shoulders of the lever.

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