RU2725689C1 - Irrigation pipeline with drip water outlets - Google Patents

Abstract

FIELD: pipelines.SUBSTANCE: invention relates to the field of irrigation devices. Irrigation pipeline contains a pipeline having openings in the wall, a device for shutting off holes on the outer side. Irrigation pipeline (4) with holes (6, 7, 8) in wall is made of flexible plastic material of high strength, is provided with resilient elastic elements made up and embracing it as ribbed adjustment tubular branch pipes (1, 2, 3) of high strength. Inner part of walls of tubular branch pipes is equipped with tubular porous element with possibility to shut off hole in wall of irrigation pipeline. Adjusting tubular branch pipes are movable of different length from beginning to end of irrigation pipeline with possibility of fixation of each of them by means of fixed yokes (9) arranged on external surface of branch pipe, one end of which is free, and other end is fixed with removal from water outlet opening in irrigation pipe wall. Length of each elastoplastic element with tubular porous element is successively changed from the beginning of irrigation pipeline to its end at increase of injected fluid medium and maintenance of uniform flow to outlet end of branch pipe with porous element irrespective of pressure change of pumped fluid medium.EFFECT: higher reliability.3 cl, 4 dwg

Description

The invention relates to devices for controlled drip irrigation using polyethylene pipelines for perennial plantations on difficult terrain, flower, vegetable and berry crops in open ground, and can also be used in growing vineyards and cultivating early potatoes in an unstable wetting zone.

Drip irrigation systems have become widely used for watering plants for different terrain conditions, as they provide a minimum of water for the root area of plants. Adjustable droppers are also widespread, as they give a fairly uniform output stream, despite pressure fluctuations at the inlet and along the length of the irrigation pipe, and thereby give drip irrigation lines the ability to be relatively long and used on uneven terrain and slopes.

Many methods have been developed to control droppers. Some include changing the cross section of the labyrinth in response to a change in inlet pressure, while others include changing the cross section of the control chamber or outlet in response to a change in inlet pressure.

Known dropper containing a housing mounted in the openings of the pipeline with a water outlet pipe made of elastic flexible material that regulates the movable and porous elements, in which, in order to increase operational reliability by providing self-flushing, providing controlled flow and simplifying the design, the control element is made in the form of a compression sleeve with an internal conical hole, a movable sleeve with longitudinal cuts from smaller to larger base and a support washer in a large base, while the movable conical sleeve is located between the compression sleeve and the water outlet, and the compression sleeve has a union nut that interacts with the washer with the possibility of axial movement of the conical sleeve relative to the outer surface of the water outlet pipe, in the outlet channel, in which the porous element of the collected inert fibers is located (Patent RU No. 2045167, A01G 25/02 of 10/10/1995).

The disadvantages of the described dropper include insufficient operational reliability, as well as the degree of unevenness of the irrigation rate, the complexity of the design, affecting the price.

Known water outlet mounted on the outlet of the pipeline and comprising a seal and a gap-forming element, in which the seal is mounted on the outer surface of the pipeline, and the gap-forming element is freely placed between the seal and the pipeline in the area of the outlet; the seal is made in the form of a ring covering the pipeline; the gap-forming element is made in the form of a loop; the gap-forming element is made of nylon line; the outlet of the pipeline is made in the form of a transverse slot (Patent RU No. 2056734, A01G 25/02 of 03/27/1996).

The described water outlet does not provide a given irrigation rate. With water pressure drops in the pipeline cavity, the gap-forming element does not provide the specified irrigation rate. A sealant in the form of a ring and a gap-forming element in the form of a loop excludes the cleaning of the water outlet, i.e. interferes with the operation of the operating staff in the processing of plants.

Known dropper containing a housing with inlet and outlet openings, an elastic membrane, while the upper part of the housing is mounted on the wall of the pipeline, and inside the pipeline there is a part of the housing with a regulatory body, including a channel and a chamber, which is configured to control the cross-section in height due to bending an elastic membrane in which the housing is made of elastic material, the channel of the regulatory body has a sinusoid shape, and the elastic membrane is installed with the possibility of overlapping the channel and chamber (Patent RU No. 2238638, A01G 25/02 of 10.27.2004).

The disadvantage of the described dropper is the high hydraulic resistance in the cavity of the pipeline due to the protruding parts of the casing, the low operational reliability of the droppers, the high cost and poor quality of irrigation.

The closest technical solution is a water outlet made in the form of a piston installed in the pipeline opening, provided with a porous element overlapping the pipeline opening and pressed to the piston, for example, using a rigid plate connected with it (Copyright certificate SU No. 471094, A01G 2, В05В 1 / 20 from 05.25.1975).

The disadvantages of this outlet are limited functionality, low operational reliability, the lack of the ability to control the water supply and causes a high cost. In addition, irregularities in the delivery of irrigation norms by water outlets along the length of the irrigation pipeline, clogging of the porous element with soil, poor manufacturing techniques, problems of winding and unwinding modern flexible polyethylene irrigation pipelines (in the form of hose tapes) with solid flexible walls at the end and at the beginning irrigation season to the bay due to the protruding plate above the piston as a whole.

As a result of the search, technical means of drip irrigation were found, patents: RU No. 2283582, A01G 25/02 dated 04/13/2005, RU No. 2294628, A01G 25/02 dated 10.03.2007, RU No. 2300188, A01G 25/02 dated 10.06.2007 , RU No. 2307500, A01G 25/02 of 04/10/2007, RU No. 2225799, A01G 25/02 of June 10, 2008, RU No. 2314676, A01G 25/02 of January 20, 2008, RU No. 2238109, A01G 25/02 of 10.07 .2008, RU No. 2337527, A01G 25/02 of 11/10/2008.

However, the disadvantages of the known technical solutions are the inability to maintain a uniform flow rate of water at low flow rates and large pressure drops in the irrigation pipeline when used on different terrain, which reduces the efficiency of their work; design complexity and large dimensions; the complexity of the installation and dismantling of these devices in irrigation pipelines of considerable length with a given step and at a given distance; the process of cleaning the working cavities of the device from clogging and various deposits is difficult, as well as the complexity of installation.

EFFECT: increased reliability by reducing clogging and lowering the cost of a dropper, as well as to provide a new design for a variable flow rate limiter device, in particular for drip irrigation droppers having a simple design for controlled water supply, which will be described in more detail below.

It should be noted that the best execution of an irrigation pipeline with water outlets along its length is that it has a constant cross section along the entire length, which means that practically without any resistance or narrowing, this is taken into account by the new proposed droppers from an elastic element inside, which contains a tubular and longitudinal a porous element on the outer surface of the pipeline with the possibility of overlapping holes in the wall of the irrigation pipeline, holes with a diameter of 1.5-3 mm, along the latter and fixing in a predetermined position. Thus, depending on the current pressure, a predetermined flow rate is adjusted through individual regulating nozzles along the entire length of the pipeline.

The technical result is achieved in that the irrigation pipe with drip outlets, including a pipe having holes in the wall, a device for blocking the holes on the outside, characterized in that the irrigation pipe with holes in the wall is made of flexible plastic material of high strength, equipped with, and the elastic elastic elements surrounding it in the form of ribbed adjusting tubular nozzles of high strength, while the inner part of the walls of the tubular nozzles is provided with a tubular porous element with the possibility of overlapping the holes in the wall of the irrigation pipe, in addition, the adjusting tubular pipes are movable of various lengths from the beginning to the end of the irrigation pipeline fixing each of them with fixed clamps located on the outer surface of the nozzle, one end of which is free, and the other end is fixed with removal from the water outlet in the wall of the irrigation pipe a, and the length of each separately taken elastic element with a tubular porous element successively changes from the beginning of the irrigation pipeline to its end with increasing injected flow medium and maintaining a uniform flow to the outlet end of the nozzle with a porous element regardless of the pressure change of the injected flow medium.

, средние регулирующие трубчатые патрубки с пористым элементом, разнесенные отдельно по длине поливного трубопровода с отверстиями, имеет каждый, соответственно, соотношение

по отношению расположения средних отверстий в стенке, а последний регулирующий трубчатый патрубок имеет, соответственно,

, при этом отверстия расположены на поливном трубопроводе на одной продольной оси, перекрывающими их регулирующими патрубками с трубчатым пористым элементом.In addition, the length of the initial section of the tubular pipe with a tubular porous element in the direction of movement of the current medium relative to the location of the first hole in the wall of the polyethylene irrigation pipe has the ratio

, the middle regulating tubular nozzles with a porous element, spaced separately along the length of the irrigation pipeline with holes, each has, respectively, the ratio

in relation to the location of the middle holes in the wall, and the last regulating tubular pipe has, respectively,

, while the holes are located on the irrigation pipe on one longitudinal axis, overlapping them with regulating pipes with a tubular porous element.

In addition, according to an embodiment, the regulating tubular nozzle with a tubular porous element inside, in its upper part, can be cut to freely put on and cover the irrigation pipeline along the outer surface, which has a large length during installation on the irrigated area, which are in the upper part between themselves , then fastened, for example, with Velcro or connected by screws made flush.

This design of the device, used as a drip of drip irrigation, covering the outer surface of the water outlet of the irrigation pipeline can at the same time be shifted manually manually and easily in the direction of the longitudinal axis relative to the outer surface of the wall of the smooth polyethylene irrigation pipe of increased strength in one direction or another of the regulatory elastic (rubber) tubular pipe, the inner part of which is provided with a tubular porous element along its length with the possibility of overlapping a free hole in the wall of the irrigation pipeline. Thus, giving resistance to the flow of the current medium directly in the regulatory

branch pipe with its element. In addition, a tubular porous material along the length of the regulating short nozzle changes the hydraulic resistance of the flowing medium in response to pressure fluctuations of the flowing flowing medium in the irrigation pipe (sometimes called a hose made of flexible material for folding into a bay), which is made of polyethylene chips of heated polyethylene on a flow line factory lines.

It should be noted that the placement of the elastic tube element (pipe) depends on the ratio of its length of placement, covering the hole in the wall of the pipeline, essentially achieving a uniform flow in the dropper, the flow rate of which is the value of a specific dropper (flow rate from 1.6 to 2 , 5 l / h), which, depending on other conditions (equal), depends on the elastic properties of all the proposed elements, i.e. from a change in the pressure of the injected flowing medium to the water outlet in the wall of the pipeline with respect to the placement of the regulating tubular short separate pipe equipped with a tubular porous element (for example, foam material). Such a dropper device can be changed by installing their kit on the outer surface of the irrigation polyethylene pipe with different lengths of the nozzles themselves in a predetermined position on the irrigated area by fixing it with a clamp (clip) on its outer surface of one of the ends, while leaving the other free to discharge water. In addition, the dropper sensitivity to clogging decreases, i.e. the new design is simple in nature and is able to self-wash during irrigation, as it moves freely on the outer surface of the polyethylene pipeline, while opening a completely water outlet in the pipeline, both at the beginning, at the middle and at the end of irrigation. In addition, the dropper, made in the form of a regulating tubular pipe with a tubular porous element for drip irrigation, can have a two-way water outlet, which expands the area of use of the irrigation water outlet (pipe).

The regulating tubular pipe is made by an elastic element in the form of rubber tubular segments of high strength, and the discrete placement of outlets can vary in any combination of their length ratios, until the hole in the pipeline is completely closed at a given location, which means that water comes in the form of drops with equal periodicity, gets on the irrigated surface. The design of the dropper is simple and reliable in operation and ensures its mass industrial production, as well as the irrigation polyethylene flexible pipelines themselves, manufactured by the factory method with certain hole sizes and the distance between the holes on the production line of the plant, and the manufacture of the entire kit.

The invention is illustrated by drawings.

In FIG. 1 shows a diagram of a drip irrigation network with droppers mounted above water outlets in the wall of an irrigation pipeline; in FIG. 2 - irrigation pipeline with droppers; in FIG. 3 is an elastic element illustrating a view of a drip of drip irrigation constructed in accordance with the present invention (section of an irrigation pipe not shown); in FIG. 4 - section of the pipeline with a dropper.

Information confirming the implementation of the claimed invention are as follows.

для среднего регулирующего трубчатого патрубка 2, соответственно, к водовыпускному отверстию 7, соотношением

, а для концевого регулирующего трубчатого патрубка 3, соответственно, соотношением

с трубчатым пористым элементом 5. Пунктиром показаны водовыпускные отверстия 6, 7 и 8 в поливном трубопроводе 4. Корпуса 1, 2 и 3 выполненных упругоэластичными элементами в виде регулировочных коротких отдельных трубчатых патрубков 1, 2 и 3 высокой прочности, могут быть выполнены также из полимеров, пластмасс, снабженных внутри трубчатым пористым элементом 5, например, из материала поролона или др., патрубки, которые фиксируются с помощью хомутов 9 с винтом 10 на одном конце патрубков 1, 2 и 3, а другой конец, в сторону слива воды на орошение, свободен от хомута (зажима). Таким образом, поперечное сечение по длине патрубков 1, 2 и 3 с внутренней стороны снабженное пористым элементом 5 выполнено охватывающим вокруг наружной стенки полиэтиленового поливного трубопровода 4, один конец регулирующего патрубка которого зафиксирован с помощью хомута 9 с винтом 10.Droppers are placed in a female housing 1, 2 and 3 and are mounted on the outer surface of a plastic irrigation pipe 4 with a diameter of 6 to 24 mm, water output from 1.6 to 2.5 l / h. The housing 1, 2 and 3 are given the shape of a tubular elastomeric element, for example, in the form of rubber, orally short individual tubes, or they can also be made of polymers, plastics. The inner flow part of the housing 1, 2 and 3 (pipe) is equipped with a tubular porous element 5. The length of each tubular bodies made in the form of short pipes 1, 2 and 3 is determined for the first tubular control pipe 1 with respect to the water outlet 6 by calculation with the ratio

for the middle control tubular pipe 2, respectively, to the water outlet 7, the ratio

, and for the end regulating tubular pipe 3, respectively, by the ratio

with a tubular porous element 5. The dashed line shows the water outlets 6, 7 and 8 in the irrigation pipe 4. Housings 1, 2 and 3 made of elastic elements in the form of short individual short tubular pipes 1, 2 and 3 of high strength can also be made of polymers , plastics, provided inside with a tubular porous element 5, for example, of foam rubber material or others; nozzles that are fixed with clamps 9 with a screw 10 at one end of the nozzles 1, 2 and 3, and the other end, towards draining the water for irrigation , free of clamp (clamp). Thus, the cross section along the length of the nozzles 1, 2 and 3 on the inside provided with a porous element 5 is made covering around the outer wall of the polyethylene irrigation pipe 4, one end of the regulating nozzle of which is fixed with a clamp 9 with a screw 10.

The implementation of separate independent from each other of the housing 1, 2 and 3 of the regulating tubular short pipes with a tubular porous element 5 and other elements, provide during installation the possibility of exploitation suitability droppers from commercially available parts, for example, based on the widespread use of currently polymeric materials, not containing corrosive during operation, as well as elastic elements, for example, in the form of rubber tubular pipes of high strength and their shape from the material of the body.

The overlapping of the water outlet 6, 7 and 8 on the outer surface of the irrigation pipe 4 and a predetermined adjustable ratio of the lengths of the nozzles 1, 2 and 3 with respect to the holes 6, 7 and 8 occurs due to the pressure difference and hydraulic losses in the direction of draining the water for irrigation along the path of fluid passage through the tubular porous element 5, as a result of which self-regulation of fluid flow occurs and thereby the efficiency of the dropper is increased. The location of the housings 1, 2 and 3 with the regulating porous element 5 inside the nozzle protects the porous element from external influences, which improves the reliability of the structure as a whole.

According to an embodiment, a dropper made by a regulating tubular nozzle with a tubular porous element in its upper part (not shown) can be made in the form of a longitudinal section with the aim of freely putting it on (covering) on the outer surface of the irrigation polyethylene pipeline due to its long irrigation length and , fixed in the upper part between each other, for example, with Velcro or connected by screws made flush (not shown in the drawing for simplicity).

The manufacture of all dropper elements with short elastic elements with a tubular porous element with appropriate lengths and fastenings with clamps in one piece facilitates their manufacture and assembly, i.e. the dropper device is simple, compact, the cost of parts is reduced.

It should be noted that the pressure irrigation pipelines 4 and nozzles 1, 2 and 3 during installation are counted on to give them a positive slope above the ground, which eliminates the siltation of the irrigation pipeline with droppers 1, 2 and 3.

It should also be described that the connection of the irrigation pipe 4 to the distribution pipe 11 with the riser 12 is performed through a ball valve 13, a pressure gauge 14 showing the water pressure (pressure) at the inlet from the distribution polyethylene pipe 11 and a fixed plastic fine filter 15 of a small size with a cylindrical in his cavity with a net. The risk of clogging is in principle absent than in conventional drip irrigation systems, when they are complicated structurally by droppers as a whole at a given pressure of 0.01-0.03 m, since it depends on the operation of the filter 15.

To determine the flow rate of water, the ball valve 13 has a graduation of the flow rate of water depending on the pressure of the water coming from the distribution polyethylene pipe 11 through the meter 16 of the water flow rate, i.e. thereby judging the amount of water spent on total drip irrigation and plant growth in the soil using a water meter.

The meter 16 for measuring water with a nominal diameter of 15 or 20 mm type (SHV) can be used as a meter for measuring the volume of cold water coming from the distribution pipe 11 at a temperature of +5 to + 40 ° C, at a pressure of not more than 1 MPa ( 10 kgf / cm ² ). These counters are standard, resistant to external magnetic fields. The pressure loss on the meter at the maximum water flow rate (Q _max ) does not exceed 0.1 MPa (1 kgf / cm ² ). The service life of the meter is 8-12 years. The principle of operation of the counter is to measure the speed of the impeller in proportion to the volume of flowing water.

The impeller rotation is transmitted to the counting mechanism, which, due to the reduction gear, provides the ability to measure the volume of water entering the irrigation pipe 4 with droppers 1, 2, and 3. The integrator of the counting mechanism makes it possible to accurately determine the volume of water for any given period of time at a given object irrigation with the newly proposed droppers 1, 2 and 3. This accounting of water is important for calculating the payment for water taken from the source. The length of the irrigation pipe 4 can be quite long. Since the droppers 1, 2, and 3 themselves, at any pressure in the irrigation pipe, will restrict the flow of fluid through the regulating tubular elastomeric element to the outlet free end of the pipe 1, 2, and 3 (droppers) located on the outer surface of the polyvinyl polyethylene pipe 4 and covering the water outlet 6, 7 and 8 outside the pipeline in its lower part, which excludes mechanical and atmospheric effects on them. The new design of droppers is inherently capable of self-washing during irrigation and its regulation along the length of the irrigation pipeline, while opening up the possibility of a water outlet freely at the beginning, in the middle and at the end of irrigation.

Irrigation pipeline with drip outlets works as follows.

так как напор воды в начале трубопровода имеет место большого давления, далее по длине поливного трубопровода увеличиваются гидравлические сопротивления его стенок, соответственно, чтобы получить заданный выпуск воды через водовыпускное отверстие 7 необходимо изменить соотношение длин относительно водовыпускного отверстия 7 длину патрубка 2, как соотношение

а для концевого регулирующего трубчатого патрубка 3, это соотношение, соответственно, составит

к водовыпускному отверстию 8. Так как действующий напор изменяется по величине от начала к концу поливного трубопровода 4, то и изменяется величина расхода воды, а это зависит от расположения водовыпускных отверстий 6, 7 и 8 в поливном трубопроводе 4.From the irrigation pipe 4 of the drip irrigation system, water under pressure through the water outlet 6, 7 and 8 enters the regulating tubular pipes 1, 2 and 3 of different lengths, then through the micropores of the porous material 5, the pumped flow medium (water) is displaced towards free the end of the pipe 1, 2 and 3, since the other end, which is fixed with a clamp 9 with a screw 10 on the outer surface of the irrigation pipe 4, and water drops in the form of drops on the irrigated area. When changing the water pressure along the length of the irrigation pipe 4, it will be sufficient to take into account the location on it of short tubular pipes 1, 2 and 3 with a tubular porous element 5: the horizontal location of the initial pipe 1 with respect to the water outlet 6 should be

since the water pressure at the beginning of the pipeline has a lot of pressure, then along the length of the irrigation pipeline the hydraulic resistance of its walls increases, accordingly, in order to get a given water discharge through the water outlet 7, it is necessary to change the ratio of lengths relative to the water outlet 7, the length of the pipe 2, as the ratio

and for the end regulating tubular pipe 3, this ratio, respectively, will be

to the water outlet 8. Since the effective head varies in magnitude from the beginning to the end of the irrigation pipe 4, the amount of water flow changes, and this depends on the location of the water outlet 6, 7 and 8 in the irrigation pipe 4.

When liquid (water) flows out of the water outlet 6, 7 and 8, it enters the tubular nozzles 1, 2 and 3 with a porous element 5, the micropores of which resist the flow of the current medium created by them and are not affected by a change in its movement. Thus, at the free end of the nozzles with a tubular porous element, taking into account their linear longitudinal dimensions, uniformity of flow for irrigation is maintained and the quality of irrigation in the form of drops is improved. Therefore, the set water flow rate for plants in all droppers is automatically maintained.

Regulating tubular nozzles in the form of elasto-elastic elements for drip irrigation are also distinguished by the fact that they can have a two-way water outlet (in the absence of clamp fixation), which expands the range of use of irrigation tubular nozzles with a tubular porous element, while moving to one or the other side on the surface irrigation pipe in relation to the water outlet in the wall of it can vary in any combination from minimum to maximum distance. This allows you to optimally distribute water directly for the root system of various plants according to the amount of absorption in the soil.

At the end of the irrigation season, dropper elements are left on the irrigation flex. Next, the pipeline is wound onto a cylindrical reel and stored in a warehouse until the next irrigation season. Droppers do not interfere with the cleaning of the pipeline.

The proposed irrigation pipeline with drip outlets allows for regulated and standardized irrigation of various plants in the open ground. It provides its complete release from water residues, allows for inter-row treatment of grass and weed vegetation, all nodes are under visual control, and we simplify the device as a whole.

The main part of the technical and economic effect is to significantly reduce the cost of manufacturing the new proposed drip drip irrigation and their simplicity in execution.

Claims (3)

1. Irrigation pipe with drip outlets, including a pipe having holes in the wall, a device for blocking the holes on the outside, characterized in that the irrigation pipe with holes in the wall is made of flexible plastic material of high strength, is equipped with elastic elastic elements that surround it and in the form of ribbed adjusting tubular nozzles of high strength, while the inner part of the walls of the tubular nozzles is provided with a tubular porous element with the possibility of blocking the holes in the wall of the irrigation pipeline, in addition, the adjusting tubular nozzles are movable of various lengths from the beginning to the end of the irrigation pipeline with the possibility of fixing each of them with the help of fixed clamps located on the outer surface of the pipe, one end of which is free and the other end is fixed with removal from the water outlet in the wall of the irrigation pipe, and the length of each individual control the elastic element with a tubular porous element changes sequentially from the beginning of the irrigation pipeline to its end with increasing injected flow medium and maintaining a uniform flow to the outlet end of the nozzle with the porous element regardless of the pressure change of the injected flow medium. 2. Irrigation pipeline according to claim 1, characterized in that the length of the initial section of the tubular nozzle with the tubular porous element in the direction of movement of the current medium relative to the location of the first hole in the wall of the polyethylene irrigation pipeline has the ratio

, the middle regulating tubular nozzles with a porous element, spaced separately along the length of the irrigation pipeline with holes, each has, respectively, the ratio

with respect to the location of the middle holes in the wall, and the last regulating tubular pipe has, respectively, the ratio

, while the holes are located on the irrigation pipe on the same longitudinal axis with overlapping regulatory pipes with a tubular porous element. 3. An irrigation pipeline according to claim 1, characterized in that, according to an embodiment, the regulating tubular pipe with a tubular porous element inside its upper part can be cut to freely put on and cover the irrigation pipeline along the outer surface, which has a large length for installation irrigated area, which in the upper part are then fastened together, for example, with Velcro or are connected by screws made flush.

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