RU2311757C1 - Drop irrigation apparatus - Google Patents

Abstract

FIELD: agricultural amelioration, in particular, drop irrigation of gardens, vineyards, vegetables in protected and open ground, early ripening potato, vine crops, flowers, berry-fields and like plantations for repletion of human wants.

SUBSTANCE: drop irrigation apparatus has irrigation pipeline with elongated drop-forming members positioned within pipeline and provided with through inner water passage cavity and discharge opening formed through irrigation pipeline. Irrigation pipeline has at least one discharge opening at its one end, said opening being closed with screw-type stopper. Other end of pipeline is equipped with means for connection to water source under pressure, such as nipple of distribution pipeline in drop irrigation system. Preliminarily purified water is fed into irrigation pipeline under pressure of at least 0.02 MPa. Drop-forming member has inlet means, channel communicated with through inner cavity of said member, outlet means formed on outer surface of said member, at site of arrangement of at least one discharge opening of pipeline. Channel is designed for reducing water pressure. At least two pairs of rigidity ribs, annular cavities between pairs of rigidity ribs, and filter are provided on surface of drop-forming member. Open zigzag-shaped pressure reducing channel is provided on cylindrical surface of drop-forming channel, between its middle rigidity ribs. Pipeline wall, inner rigidity ribs and cylindrical surface of drop-forming member define high-pressure circular cavity. End parts of said channel are placed through cuts in middle pair of rigidity ribs, on cylindrical surfaces in adjacent pairs of rigidity ribs. Ribs define average-pressure cavities on drop-forming member surfaces. Filters positioned within average-pressure and high-pressure cavities are formed as hollow cylinders of gas-expanded plastics, which embrace cylindrical surfaces of drop-forming member. Outer surface of filter set within high-pressure cavity adjoins elastomer bandage. Each average-pressure cavity is hydraulically communicated with aligned discharge opening of pipeline in low-pressure cavity. Low-pressure cavities are defined by outer pairs of rigidity ribs which are provided with air gates. Outer diameter of rigidity ribs on surface of drop-forming member exceeds inner diameter of irrigation pipeline by 1.02-1.06 times.

EFFECT: increased efficiency and enhanced reliability in operation.

4 cl, 8 dwg

Description

The invention for agricultural land reclamation, in particular for drip irrigation of orchards, vineyards, vegetables in closed and open ground, early ripening of potatoes, early terms of melons, flowers, berries, etc. plantations to meet human needs.

A device is known for an adjustable flow limiter for drip irrigation, comprising a housing having an inlet connected to a source of injected fluid, an outlet, a channel connecting the inlet and outlet formed by two opposite walls, one of which is mounted with the possibility of displacement to the other wall and from it, and many reflective walls passing in the transverse direction to both walls spaced in the longitudinal direction between them to form a wall of the flow stream, which creates resistance to the flow of the current medium, in some gaps have an increasing value in the direction from one hole to another to ensure their sequential closure with increasing pressure of the injected current medium and to maintain a uniform flow to and from the outlet regardless of the change in pressure of the injected current medium ; the gaps have an increasing height in the direction from the inlet of the housing to its outlet; the gaps have an increasing height in the direction from the outlet of the housing to the inlet of the housing; the displaceable wall is made in the form of an elastomeric membrane; the housing has a longitudinally extending cavity, the reflective walls being located in this cavity, and the membrane is fixed along it to opposite sides of the housing walls so that its middle part lies above the reflective walls and forms gaps with respect to them; the surface of the reflective partition facing the membrane is tilted inside it to study the contract of the membrane with the reflective partitions; the housing has a cylindrical configuration and is fixed in the water supply pipe having drain holes connected to the outlet of the housing, and the baffles are located on its outer surface, while the elastomeric membrane of the casing is attached to the outer surface of the baffles; part of the reflective partitions forms the first labyrinth, and the other part of the reflective partitions extending in the transverse direction to the channel walls and spaced in the longitudinal direction, the second labyrinth adjacent to the outlet opening of the housing, and the reflective partitions of the second labyrinth are located on the entire gap between the channel walls in this way that the resistance to the flow of the current medium created by them is not affected by a change in its pressure; the casing consists of two connected parts, one of which has an inlet with a pipe mounted in the hole, and the second part has an outlet, and in one part of the casing there are recesses that form reflective walls between the parts when they are connected, and the displaceable wall is made in the form of an elastomeric a membrane placed between the parts of the housing, and forms gaps with reflective partitions; reflective partitions with pressure-dependent flow resistance and a fixed flow resistance are located in the first part of the housing, the first of these partitions being made on the flat surface of the housing part, each in contact with the membrane, and the second with a fixed flow resistance and the first formed around the circumference of the side wall part of the housing connected to its second part (RU, patent No. 2144830. C1 MPK ⁶ A01G 25/02, B05V 1/02 V 05 / V 1/30. The device of an adjustable flow limiter for drip irrigation / Am Ir Cohen (IL) .- Application No. 94026074/13; Stated July 20, 1994; Publish. January 20, 1999).

The disadvantages of the described device, despite the multivariance of the design, include design complexity, low technical and operational reliability, the need for special expensive equipment in mass production, low-tech design elements, high hydraulic resistance along the length of the irrigation pipeline, and a high degree of purification of suppressed water.

The closest analogue to the claimed object includes a drip irrigation device comprising a pipeline containing at least one outlet, means for connecting to a source of pressurized water and at least one elongated drop element installed inside the pipeline with a through internal cavity for water passage having an inlet means containing at least one channel associated with the through-cavity of the element, at least one outlet means is made on the outer side surface of the element instead of the location of at least one outlet of the pipeline, at least one channel for reducing pressure, made on the outer side surface of the element connecting the inlet means of the element with the outlet means, in which the specified channel to reduce pressure, located along the elongated side of the drip element and has alternating protrusions and depressions on opposite surfaces of the sides of the channel so that the protrusions of one side are located They are opposite the depressions of the opposite side, the inlet means is made in the form of at least a part of the annular groove forming a cavity connected to the inlet of the channel to reduce pressure, in which said at least one channel is made, connected with the through internal cavity of the element, at the same time, a filter is installed at the input of the specified channel; in the specified annular groove formed an additional channel connecting the cavity of the groove with the cavity of the element, located diametrically opposite to the specified channel associated with the through inner cavity of the element, while the additional channel is equipped with a filter; the filter consists of alternating sections interconnected with a vertical and horizontal arrangement of filter threads; the droplet element contains at least two interconnected channels for reducing pressure, forming two groups located on the element; a diametrically opposed drip element on its lateral surface contains stiffeners located between these groups of channels; the droplet element contains two exhaust means, made at the ends of the element in the form of circular cavities, while the stiffeners located near the outlet of the channel to reduce pressure have a passage connecting these exhaust means (RU, utility model No. 38529. U1. IPC ⁷ A01G 25 / 02. Drip irrigation device / Yu.Khurgin (IL), M.A. Glushuk (UA) .- Application No. 2003107287/20; Published March 27, 2003; Published July 10, 2004, Bull. No. 19 // Inventions. Useful model -. 2004. - №19, or UA, patent №48904 A IPC ⁶ A01G 25/02 Kraplinsky zroshuvalny pristiy / Khurgin (IL), M.A.Gluschuk (UA) -.... Zaia ka №2002042568; Stated 01.04.2002; Publ 15.02.2002, Bulletin №8)...

The disadvantages of the described drip irrigation device, adopted as the closest analogue, are the complexity of the design, low operational reliability of the outlet, high cost of 1 pm irrigation pipeline, low-tech manufacturing and assembly of an elongated drip element, low degree of delivery of irrigation norms along the length of the irrigation pipeline.

The essence of the claimed invention is as follows.

The problem to which the claimed invention is directed is to increase the operational reliability of drip irrigation of agricultural crops in the system of irrigated agriculture.

The technical result is a reduction in the cost of a running meter of an irrigation pipeline, simplification of the design, improving the manufacturability and quality of drip irrigation.

The specified technical result is achieved in that in a known drip irrigation device including an irrigation pipe, at least one outlet, means for connecting to a source of pressurized water and at least one elongated drop element installed inside the pipe with a through internal cavity for passing water having an inlet means containing at least one channel associated with a through internal cavity of the element, at least one outlet means, at least one channel for reducing pressure, made on the outer surface of the element at the location of at least one outlet of the pipeline, made on the outer side surface of the element connecting the outlet means of the element with the outlet means, at least two pairs of stiffeners on the lateral surface of the droplet element, annular cavities between pairs of stiffeners and a filter according to the invention, on the cylindrical surface of an elongated droplet element between its middle ribs With stiffnesses forming a high-pressure cavity, an open zigzag channel is made to reduce pressure, the end sections of which in the diametrical plane of the droplet element through slots in the middle pair of stiffeners are located on cylindrical surfaces in adjacent pairs of stiffeners that form pressure cavities in these medium and high-pressure filters between the stiffeners installed in the form of hollow cylinders made of gas-filled plastic covering cylindrical surfaces of droplet element, while the outer surface of the filter is installed in the high-pressure cavity, has an elastomeric band, each of the medium-pressure cavities is hydraulically connected to the combined outlet of the pipeline in the low-pressure cavity, formed by a stiffener, coupled to the filter and having grooves on the periphery of the rib, and the extreme stiffener equipped with an air lock; the inlet means of the elongated drip element, at least, has an opening with a bell facing the filter; open zigzag channel to reduce water pressure in the high-pressure cavity has a combination of part of the circle; the outer diameter of the stiffeners on the surface of the elongated drip element is 1.02 ... 1.06 times larger than the inner diameter of the irrigation pipeline.

The invention is illustrated by drawings.

Figure 1 shows a diametrical section of a drip irrigation device.

Figure 2 - section aa in figure 1, a transverse vertical section of the wall of the irrigation pipe and the elongated drip element at the interface with the air lock made between the extreme stiffeners.

In Fig.3 is a section bB in Fig.1, a transverse vertical section of a cavity of low pressure formed by the wall of the irrigation pipe, the ribs are rigid and the wall of the elongated drip element at the location of the outlet of the pipeline.

Figure 4 - section bb in figure 1, a transverse vertical section of a stiffener dividing the cavity of low and medium pressure, on the periphery of which grooves are made for transferring purified water from the medium pressure cavity to the low pressure cavity.

In Fig.5 is a section GG in Fig.1, a transverse vertical section of a medium-pressure cavity formed by internal and adjacent stiffeners, a wall of an elongated drip element and a wall of an irrigation pipeline.

In Fig.6 is a section DD in Fig.1, a transverse vertical section filled with plastic as a filter with an elastomeric bandage of the annular cavity of high pressure formed by the wall of the irrigation pipe, internal stiffeners of the elongated drop element and its outer cylindrical surface with a zigzag shape a channel for reducing pressure and openings with sockets facing the filter side for hydraulic communication with a through internal cavity for passing water through an elongated drop element.

In Fig.7 is a cross-section EE in Fig.1, a cross section of a pipeline, an elastomeric band, a filter from a gas-filled droplet element, a high-pressure cavity and a zigzag channel with a cross-section in the form of a part of a circle.

On Fig presents a scan of the outer cylindrical surface of the elongated droplet element with an open zigzag channel for reducing pressure and holes with sockets for supplying water from the through inner cavity of the elongated droplet element for passing water into the high pressure cavity.

Information confirming the possibility of implementing the claimed invention are as follows.

The drip irrigation device (see Figs. 1-8) includes an irrigation pipe 1, at least one elongated drip element 2 installed inside the pipe 1 with a through inner plane 3 for passing water in the irrigation pipe 1 and at least one outlet 4 in the wall 5 of the pipeline 1 (figures 1 and 3). Irrigation pipe 1, at least, has one outlet 6 at one end, usually closed by a screw plug. The other end 7 of the irrigation pipe 1 has means for connecting to a source of pressurized water. In drip irrigation systems, the end 7 of the irrigation pipe 1 is connected by a nipple to a distribution pipe in which irrigation water pre-purified from suspensions, litter and microorganisms is supplied at a pressure of at least 0.02 MPa.

The elongated droplet element 2 has an inlet means on the outer side surface comprising at least one pressure reducing channel 8 connected to the through inner plane 3 by means of the inlet 9. At least two are made on the lateral surface of the droplet element 2 pairs of stiffeners 10, 11, 12 and 13, annular cavities 14, 15, 16, 17 and 18 between them and a filter (see figure 1).

On the cylindrical surface of the elongated drip element 2 between its middle stiffening ribs 13, an open zigzag channel 8 is made (see FIGS. 1 and 8). The open zigzag channel 8 to reduce the water pressure in the cavity 16 of the high pressure has a section of part of a circle (see Fig. 5-7). The cavity 16 is formed by the wall 5 of the irrigation pipe 1, stiffening ribs 13 to the outer cylindrical surface of the elongated droplet element 2. The exhaust means of the elongated droplet element 2, at least, has a radial hole 9 with a bell 19 facing the filter 20 (see FIG. 1, 6 and 8). The end sections 21 and 22 of the channel 8 through the slot 23 in the middle pair of stiffeners 13 are located on cylindrical surfaces in adjacent pairs of stiffeners 13 and 12. Stiffeners 13 and 12, wall 5 of the irrigation pipe 5 and the surface of the drip element 2 form medium pressure cavities 15 (17). In these cavities 15 and 17 of medium pressure and cavity 16 of high pressure between the stiffeners 12 and 13, 13 and 13, 13 and 12, filters 24, 20 and 25 are installed. Each filter 24 (20, 25) in the form of a hollow cylinder is made of gas-filled plastic with a coverage of the cylindrical surfaces of the element 2. The surface of the filter 20 is pressed against the surface of the channels 8 and the bells 19 of the inlets 9 with an elastic bandage 26, installed cavity 16 high pressure.

Each of the medium-pressure cavities 15 (17) is hydraulically connected to the combined convex hole 4 in the wall 5 of the pipeline 1 in the low-pressure cavity 14 (18). The low-pressure cavities 14 and 18 are formed by pairs of stiffening ribs 11 and 12. The outer diameter of the stiffening ribs 10, 11, 12 and 13 on the surface of the elongated drip element 2 is 1.02 ... 1.06 times larger than the inner diameter of the irrigation pipe 1. The stiffening ribs 12 on the periphery have grooves 27. Through the grooves 27 ribs 12 purified water enters the cavity 14 (18) low pressure. Between the extreme stiffening ribs 10 and 11, an air shutter 28 is made to prevent water from the irrigation pipe 16 from entering the low pressure cavity 14 (18).

Drip irrigation device operates as follows.

Irrigation water under working pressure from the cavity of the irrigation pipe 1 enters the through inner cavity 3 of the drip element 2 for passing water in the irrigation pipe 1 to the subsequent drip elements 2 for irrigation of agricultural plants planted in a row with a given (calculated) step. Due to the minimum drag of the elongated droplet element 2 and the implementation of the ribs 10, 11, 12 and 13 with a diameter of 1.02 ... 1.06 times more than the inner diameter of the irrigation pipe 1, the cavity 14 of low pressure at the end sections of the droplet element 2 do not move relative to the outlet openings 4 in the wall 5 of the irrigation pipe 1. Further, from the inner cavity 3 of the drip element 2, water through the radial inlet openings 9 fills the cavities of the sockets 19 on the outer wall of the drip element 2. The wide bases of the sockets 19 are turned s towards filter 20 made of gas-filled plastic. The elastomeric bandage 26 filter 20 is tightly pressed to the surfaces of the sockets 19. Water under pressure penetrates into the cavity and micropores of gas-filled plastic. The flow rate of water from the radial inlet 9 is extinguished. When filling the pores of the filter 20, water molecules fill the entire volume of gas-filled plastic, while displacing the air.

When filling the micropores of the filter 20, water, having passed the entire volume of gas-filled plastic, rushes into the channel 8. At the same time, part of the water will also fill the high-pressure cavity 16, thereby creating a balanced working pressure over the elastomeric bandage 26 and the wall 5 of the irrigation pipe 1. An open zigzag channel 8 accumulates the flow in the cavity 16 high pressure and its end sections 21 and 22 directs the flows of purified water in the cavity 15 and 17 medium pressure. From the end sections 21 and 22, water enters the horizontal plastics of the filters 24 and 25. Further, the water gradually fills the medium pressure cavities 15 and 17 and flows with minimum pressure through the end sections of the filters 24 and 25 through the grooves 27 on the stiffening ribs 12 into the cavities 14 and 18 low pressures. From the cavities 14 and 18 of low pressures, only under the forces of gravity, water through calibrated holes 4 in the form of drops of a given volume enters the irrigated area.

With prolonged period of irrigation in arid climate conditions acutely for microflora suppression filters 20, 24 and 25 and the planes 14, 15, 16, 17 and 18 periodically to irrigation water feed carbon dioxide (CO _2). With the passage of CO ₂ gas, a highly organized microflora is destroyed, and insoluble salts in the pores of gas-filled plastic are brought into soluble forms and removed outside the droplet element 2.

Thus, obtaining the specified technical result is achieved.

Claims (4)

1. A drip irrigation device comprising an irrigation pipe, at least one outlet, means for connecting to a pressurized water source and at least one elongated drip element installed inside the pipe with a through internal cavity for passing water having an inlet means containing at least one channel associated with the through inner cavity of the element, at least one outlet means made on the outer surface of the element at the location, p at least one outlet of the pipeline, at least one channel for reducing pressure, made on the outer side surface of the element, connecting the inlet means of the element with the outlet means, at least two pairs of stiffeners on the side surface of the droplet element, the annular cavity between pairs of stiffeners and a filter, characterized in that on the cylindrical surface of the elongated drip element between its middle stiffeners, forming a high-pressure cavity, is not made a closed zigzag channel to reduce pressure, the end sections of which in the diametrical plane of the droplet element through slots in the middle pair of stiffeners are located on cylindrical surfaces in adjacent pairs of stiffeners, forming medium-pressure cavities, filters are installed in the indicated medium and high pressure cavities between the stiffeners in the form of hollow cylinders made of gas-filled plastic with coverage of the cylindrical surfaces of the droplet element, while the outer surface of the filter ennogo in the pressure chamber, it has an elastomeric bandage, each of the medium-pressure cavities hydraulically connected to the combined outlet conduit in a cavity of low pressure formed by the stiffening rib, coupled with the filter and having grooves on the periphery of the rib and extreme rib provided with an air gate. 2. The device according to claim 1, characterized in that the inlet means of the elongated drip element, at least, has an opening with a bell facing the filter. 3. The device according to claim 1, characterized in that the open zigzag channel to reduce the pressure of water in the high-pressure cavity has a section of part of a circle. 4. The device according to claim 1, characterized in that the outer diameter of the stiffeners on the surface of the elongated drip element is 1.02 ÷ 1.06 times larger than the inner diameter of the irrigation pipe.

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