RU2045167C1 - Dropper - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: dripper has a body mounted in a trickle irrigation system pipeline hole, flexible water outlet tube, adjuster (a bushing with an external cone-shaped hole), movable bushing with lengthwise slots from smaller to bigger base, and a thrust washer in the bigger base. The cone-shaped bushing is mounted for axial movement relative to the external surface of the water outlet tube. A porous member consisting of inert wavy filaments is provided in the water outlet channel. EFFECT: simpler design, higher trickle irrigation reliability, controllable water delivery. 2 dwg

Description

 The invention relates to agriculture, namely to drip irrigation.

 An irrigation device is known that includes a pipeline with droppers in the form of microporous tubes mounted axially movable across the pipeline, one of the ends of the microporous pipes is plugged and each equipped with an adjustment rod rigidly connected to the pipe and passing through the opposite side of the pipeline.

 The disadvantage of this device is the low operational reliability due to the possible clogging and the need to supply compressed air for cleaning, resulting in unproductive labor costs and losses of this medium, and the process itself takes a lot of time. In addition, droppers cause significant losses of water energy in the pipeline, and its diameter must be increased, which leads to a rise in the cost of the drip irrigation system.

 Known dropper mounted across the irrigation pipeline and containing a movable pipe and coaxially connected with it a tubular porous soft element, the second end of which is fixed inside the irrigation pipeline. The movable nozzle is equipped with a perforated tube coaxially installed in it, one end fixed in the hole of the pipeline, while the porous elastic element is mounted on the perforated tube with the possibility of changing its cross section by means of the movable nozzle, and the tube is equipped with a position lock for the movable nozzle.

 The disadvantage of this dropper is the design complexity, since it is necessary to make numerous holes across the axis of the pipeline from two sides, as well as reducing operational reliability if irrigation water is heavily contaminated and small particles accumulate in the pores of the elastic element, which requires a frequent change in its cross section, since clogging of small adjustable gaps occurs. In addition, droppers reduce the capacity of the feeder (pipeline), as they cause high resistance to flow, as a result of which its diameter grows. All this makes the drip irrigation system more expensive. Moreover, the range of regulation of costs is reduced.

 The purpose of the invention is to increase operational reliability by providing self-washing, providing a controlled water supply and simplifying the design.

 This goal is achieved in that the dropper consists of an elastic culvert with a porous element and a regulating element made with the possibility of changing its cross-section of the tube using a movable element. The regulating element is made in the form of a compression sleeve with an internal conical hole, equipped with a conical movable sleeve with longitudinal sections and with a support washer in the base, while the conical sleeve is located between the compression sleeve and the water outlet pipe, the compression sleeve is equipped with a union nut that can be axially contacted with the washer the movement of the conical tube relative to the outer surface of the water outlet. In this case, the water outlet tube is made of elastic elastic material, and the porous element is made of fibrous fibers and is placed in the outlet channel of the tube, the other end of the tube is attached to the hole of the pipeline.

 This embodiment of the device and the totality of all the signs comes from a small-diameter irrigation pipe (humidifier) and does not create resistance inside its cavity. In this case, not only the best dropper washing is carried out, but also the water flow is adjusted due to the movable conical sleeve, moved by a union nut in the inner conical hole of the compression sleeve, and the slotted slots on the movable conical sleeve allow you to change the shape of an elastic elastic water outlet tube in the cavity of which an inert fibrous material is placed along the length (for example, fiberglass, basalt fibers, etc.), which is laid lengthwise in an elastic flexible tube.

 The positive effect also consists in increasing the operational reliability of the droppers and in unifying their parts for factory manufacture, while the recovery process of the dropper shape occurs when adjusting the water outlet in it. A tube made of flexible elastic material has anti-corrosion properties in aggressive water for irrigation to biological and mineral admixtures of irrigation water, which does not require expensive fine filters. All this improves the operational properties of the dropper.

 Moreover, such a dropper device can dramatically reduce the requirements for water treatment, which is spent at least half the cost of drip irrigation.

 Figure 1 shows the proposed dropper, a longitudinal section; in FIG. 2 section aa in figure 1.

 The dropper consists of a regulating and porous element, the regulating element contains a compression sleeve 1 with an internal conical hole 2, into which a plastic, elastic, elastic culvert 3 is passed, in the channel 4 of which a porous element is made made of a wave of inert water 5 (for example , fiberglass, basalt fiber, etc.). Conical with the tube 3, a conical movable sleeve 6 is mounted in a conical hole 2 of the compression sleeve 1, while the conical mobile sleeve 6 contains slotted slots 7 (Fig. 2) from a smaller base to a larger base, and a supporting washer 8 is installed to its larger base. the sleeve 1 is screwed on the threaded union nut 9, which contacts its base with the support washer 8, so that together with the conical movable sleeve 6 for regulating the liquid it tightly compresses a plastic elastic, elastic culvert. Slotted longitudinal slots allow the conical sleeve to reduce the inner diameter, thereby the conical sleeve acts on an elastic, resilient culvert, reducing its cross section, and presses the wavy fibers against each other. This will reduce the living area between the fibers. On the nut 9, on the outside, a scale 10 is applied, on the compression sleeve 1 there is a zero mark, which are designed to calibrate the required flow rate for the dropper.

 A dropper works as follows.

 The dropper is attached to the drip line using fittings on the pipeline to which the culvert 3 is attached. Water under pressure enters the channel 4 of the tube 3 and leaks through the fibrous capillary element along its entire length and flows as a drop into the soil.

 The water flow rate is controlled by changing the working area of the passage section of the channel 4 of the tube 3 at the location of the capillary element with the help of a cap nut 9, screwed onto the compression sleeve 1, and the nut 9 presses against the washer 8 and moves the conical sleeve in the form of a wedge in the conical cavity the holes 2 of the sleeve 1 along the surface of the pipe 3. The sleeve 6 with slotted longitudinal sections begins to compress, and, therefore, compress the elastic flexible tube 3, which, in turn, is deformed (bends) and air It acts on the fibrous element, pressing individual fibers to each other, straightening the wavy shape of the fibers and reducing the living area of the capillary. As a result, dropper consumption is reduced.

 When unscrewing the nut 9 on the bushings 1, respectively, the end of the conical movable sleeve 6 returns to its original position, the longitudinal sections increase, the elastic tube 3 bends and the flow rate through the fibrous capillary element increases. Using the applied scale 10 on the nut 9 and a zero mark on the sleeve 1, the dropper flow rate is calibrated as a function of the degree of compression of the fiber element 5. The calibration is carried out using a beaker and a stopwatch. Obtaining the required flow rate, the dropper is set for irrigation. Thus, a uniform stable distribution of water is carried out along the length of the pipeline.

 The positive effect of the use of the invention in comparison with the prototype is to increase the reliability of the droppers, as the automatic washing of droppers and the restoration of patency of the culvert with the capillary element is carried out by adjusting the union nut without stopping irrigation, while increasing the distance between the fibers made of inert material possessing a wavy shape, which creates a change in the flow velocity along the length of the channel and their constant vibration. This means that irrigation water must first be cleaned only by a pipe, which does not require the use of expensive fine filters.

 The proposed dropper is simple in design, easy to replace if necessary, and improves operation due to the possibility of self-cleaning, and at the same time does not require an increase in the cross-section of the irrigation pipe, that is, the pipe can be made small in diameter, and this leads to a decrease in cost drip irrigation system, not less than 70%. The implementation of collapsible dropper parts allows to simplify manufacturing technology in mass production.

Claims (1)

 DROPPER containing a body mounted in the openings of the pipeline with a water outlet pipe made of elastic material that regulates the movable and porous elements, characterized in that, in order to increase operational reliability by providing self-flushing, providing an adjustable water supply and simplifying the design, the regulating element is made in in the form of a compression sleeve with an internal conical hole, a movable sleeve with longitudinal cuts from a smaller to a larger base and a support washer in on the base, while the movable conical sleeve is located between the compression sleeve and the water outlet pipe, 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 output channel of which there is a porous element made of inert undulating fibers .