SU1098574A1 - Universal sprinkler - Google Patents

Abstract

I. A universal sprinkler head, containing a housing with an exhaust hood. An external pesffa and flow regulator with calibrated holes, carrying racks, in the holes of which an axis deflector is installed in the form of a polyhedron, characterized in that, in order to increase the quality of spraying due to increased tuning accuracy while simplifying it, the axis of the deflector is made in the form of a multifaceted finger with the number of faces corresponding to the number of faces of the deflector, and the holes in the racks are in the form of the fingers matching the surface tsa multi-faceted holes. 2. The nozzle according to claim 1, wherein each face of the deflector is made in the form of a beam with a removable working part. (I 3 with 00 ate 4

Description

This invention relates to a design for spray nozzles. A known nozzle comprising a housing with a flow channel and racks with a hole on which the deflector 1 is mounted on the rod. However, with this design, the deflector directs the sprayed liquid at a certain angle to the irrigated surface, which narrows the scope of application and does not provide the specified operating mode m. The closest to the proposed technical essence and the achieved effect is a universal sprinkler head, comprising a housing with an outlet channel and a flow regulator with The openings carry racks in which holes the deflector is installed in the shape of a polyhedron 2. A disadvantage of the known nozzle is the complexity of the design of the deflector and the mold for its manufacture, increased material consumption .. The complexity of setting the nozzle to the operating mode is even insignificant the misalignment of the calibration hole and the center of the working plane of the deflector during operation causes a significant deterioration in the quality of spraying. Achieving the same strict alignment requires highly skilled staff, time and attention. The aim of the invention is to improve the quality of the spray due to the gain of tuning accuracy while simplifying it. This goal is achieved by the fact that in a universal sprinkler nozzle comprising a housing with an outlet channel and a flow regulator with calibrated holes, carrying posts with a deflector in the form of a polyhedron mounted on the holes in the axis, the axis of the deflector is made in the form of a polyhedral finger with a number of faces corresponding to the number of faces of the deflector, and the holes in the racks are in the form of multifaceted holes matching with the finger surface. In addition, each face of the deflector is made in the form of a beam with a removable working part. FIG. 1 shows the proposed nozzle, a general view; in fig. 2 shows section A-A in FIG. one; in fig. 3 — flow controller with calibrated orifices; in fig. 4 shows a section BB in FIG. 1. The universal sprinkler head includes a housing 1 with an outlet channel 2 and a flow regulator 3 with calibrated holes 4, carrying posts 5, in holes whose holes the deflector 6 is mounted on the axis in the form of a polyhedron. The axis of the deflector 6 is made in the form of a multi-faceted finger 7 with the number of faces corresponding to the number of faces of the deflector 6, and the holes in the flocks 5 are in the form of 7 multi-faceted holes. Each face of the deflector 6 is made in the form of a beam 8 with a removable working part a, b, c, d, e and E. Finger 7 has a threaded hole for the fastening screw 9. Split body 1 consists of a hollow upper part with internal thread for connection to the water supply connecting ring, ring groove for laying the seal ring 10 and external thread for connection to the bottom and the bottom itself with the outlet channel 2. The flow regulator 3 is a flat movable plate with calibrated holes 4, which is provided with ennymi them parallel recesses for fixing its position of locking screw 11 (the screw can be used instead of a spring loaded ball retainer and m. p.) which provides a strict coaxiality of the holes. The nozzle works as follows. The fluid flows in the direction of arrow B into the cavity of the upper part of the nozzle, passes through one of the calibrated orifices 4 of the flow regulator 3 and through the outlet channel 2 of the housing 1 enters the core working part of the deflector 6, comes off it and falls into raindrops that take a given direction movement. Specific conditions predetermine the location of one or another working part of the deflector in front of the hole 4 of the flow regulator 3, for which the fastening screw 9 is initially turned out, keeping the deflector 6 from falling out, the pin 7 is removed from the holes of the uprights 5, the preset deflector b is set the holes 4 of the flow regulator 3, insert the pin 7 into the holes of the uprights 5 in place and fix it with the fixing screw 9. To reduce the drift of the sprayed drops in windy weather, use the deflector working part Torus A is a straight cone that directs the liquid downward at an angle to the irrigated surface. In case of moderate wind, the working part of the deflector is used - a straight cone, but with a large angle with a fineness that increases the spray pattern. When the wind is weak, use the flat working part of the deflector in, wetted a large area. In calm weather, when, as a rule, the air temperature is highest, it is necessary to moisten not only the soil and plants, but also the surface air layer in order to create the most favorable conditions for the growth and development of plants. In such cases, the working part of the deflector g is used, which ensures a smooth change in the direction of movement of the spray. Reverse droplets at a certain angle to the horizon are used, which, under their own weight, descend along the parabolic curve by

irrigated surface. When irrigating high-stemmed crop crops such as maize, use the working part of the deflector d, a cup-shaped cone, which provides a low-drop liquid distribution in the system, similar to the operation of hose outlets on irrigated crops, at low pressure in the system. On the contrary, with high pressure in the system and low consumption, which implies, for example, fine sprinkling, the working part of the deflector e, a needle-shaped cone, which provides a mist spray, is used. Thus, the nozzle provides the possibility of simple and reliable settings for a given mode of operation, taking into account specific conditions.

A - A (scheme)

F

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Claims (2)

1. A universal sprinkler nozzle, comprising a housing with an outlet channel and a flow regulator with calibrated holes, bearing racks, in the holes of which an axle in the form of a polyhedron is installed on the axis, characterized in that, in order to improve the quality of spraying by increasing the accuracy of adjustment during to simplify, the axis of the deflector is made in the form of a polyhedral finger with the number of faces corresponding to the number of faces of the deflector, and the holes in the uprights are in the form of polyhedral holes mating with the surface of the finger. 2. Nozzle according to π. 1, characterized in that each face of the deflector is made in the form of a beam with a removable working part.