RU2102159C1 - Sprayer - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: this can be used in agriculture, chemical industry and other fields for directed spraying of liquids. In sprayer, one of disks of spraying member carrying means for regulating clearance between disks is provided with blades. Bearing unit is made in the form of at least four rings. Middle rings of them are made of antifriction material, and extreme rings are made of resilient material. EFFECT: high efficiency. 7 dwg

Description

 The invention relates to the field of spraying liquids and can be used in agriculture, chemical industry and other sectors of the economy for directed spraying of liquids.

A device for centrifugal fan-shaped circular spraying of liquid, containing a drive shaft and mounted on it spraying elements, one of which is made in the form of a disk, and the other in the form of a plate [1]
Its disadvantage is low efficiency when used as a sprinkler of liquid during irrigation.

The closest in technical essence and the achieved positive effect to this invention is an atomizer containing a hollow shaft, a bearing assembly connected to the shaft end of the hollow shaft, a spray element mounted on the hollow shaft, consisting of two disks arranged obliquely to the axis of rotation, one of which is installed with the possibility of displacement in the axial direction and has means for regulating the gap between the disks [2]
A disadvantage of the known atomizer is the use of an external energy source, which rotates the spray elements, as well as low irrigation efficiency.

 The objective of the invention is to increase the efficiency of irrigation by changing the shape of the spray element and replacing an external energy source.

 This is achieved by the fact that in a sprayer containing a hollow shaft connected to a source of spray liquid, a bearing shaft mounted in the shank of the hollow shaft, a spray element mounted on the hollow shaft, consisting of two disks arranged obliquely to the axis of rotation, one of which is mounted for movement in the axial direction and has means for regulating the gap between the disks, according to the invention, the disk with the means for regulating the gap is provided with blades, and the bearing assembly is made in the form e, at least four rings, the middle of which are made of antifriction material, and the extreme of elastic.

 Unlike the prototype, where the spray element is driven by an electric motor, the proposed spray element is driven by the pressure of the liquid on the activator blades, which rises above the funnel, forming an annular section through which the fluid flows out, transmitting force to the activator blades and the funnel with a hollow shaft, which begin to rotate in a bearing assembly located on the shank of the hollow shaft and representing a set of at least four gaskets, with ednie of which are made of antifriction material, and extremes of the elastic.

 In FIG. 1 spray element; in FIG. 2, view A in FIG. one; in FIG. 3 view B in FIG. one; in FIG. 4 general view of the sprinkler; in FIG. 5 section BB in FIG. 4; in FIG. 6, element II in FIG. 4 in FIG. 7, element I in FIG. one.

 The spray element (Fig. 1) contains a hollow shaft 1 connected to the coupling 2 and the pipe 3 with a source of sprayed liquid, a spray element is fixed on the hollow shaft 1, consisting of two disks 4 and 5, inclined to the axis of rotation, one of which 4 made in the form of a funnel, another 5 activator, equipped with blades 6, mounted with the possibility of movement in the axial direction, has means for regulating the gap between the disks 4 and 5 (Fig. 3) and is preloaded by spring 7 with screw 8 by means of clamp 9 and nuts 10 wherein the clip 9 is connected to the spray conductive element pins 11 fixed through a washer 12 and nuts 13 (FIG. 2).

 On the shank of the hollow shaft 1 there is a bearing assembly made of a set of at least four rings, the middle of which 14 are made of antifriction material, and the last 15 are made of elastic material (Fig. 7).

 Between the funnel 4 and the coupling 2 on the hollow drive shaft 1 is a nipple 16.

 The sprinkler is fixed (Fig. 4) to a support 17 mounted on the irrigated surface until it stops 18. The support 17 contains a spacer 19 in the lower part and a retainer 20 in the upper part (Fig. 5). The latch 20 (Fig. 6) is made in the form of a sleeve 3 enclosing the pipe 3 with an opening into which a bolt 22 with a nut 23 is inserted. The lower end of the pipe 3 is connected via an outlet 24 and a pipe 25 to the control valve 26 and the fitting 27.

 The sprinkler is used as follows.

 The device is installed by means of supports 17 on the irrigated surface. Then, using the latch 19 by moving the pipe 3 in it and securing it with a bolt 22 with a nut 23, a spray element is placed at the desired level (Fig. 4). Further, a spray liquid is supplied into the nozzle 27 under pressure, which, through the valve 26 open to the required size, passes through the pipe 3 in the hollow shaft 1 into the funnel 4 of the spray element.

 Under the influence of liquid pressure, the activator 5 rises above the funnel 4, overcoming the resistance of the spring 7 and forming an annular output section through which the supplied liquid begins to flow out in the form of a fan stream.

 At the beginning of the outflow, the liquid creates pressure on the blades in the activator 5. By this force, by means of the clamp 9 and the studs 11, the funnel 4 and the hollow shaft 1 connected to it are rotated.

 At the same time, under the action of fluid pressure, the dispersing element with the hollow shaft 1 is lifted in the nipple 16. In this case, the shaft 1 shank presses the bearing assembly against the nipple 16. The gaskets 15 are elastically pressed against the end surface of the nipple 16 and the shoulder of the shaft 1 shaft. This prevents liquid from entering the gap between the shaft 1 and the nipple 16. The gaskets 14 are pressed against each other and opposite sides to the gaskets 15. The gaskets 14 due to the antifriction properties of the material from which they are made, when the shaft 1 rotates, they slide freely along each other.

 Due to the rotation of the sprayer and the location of the spraying element at an angle to the axis of rotation, a fan jet is scanned, i.e. in any radial direction, it has different, but periodically repeating departure angles. Due to this, irrigation of the treated surface in the form of a circle is achieved, with the exception of its central part. The diameter of the irrigated surface can be changed by adjusting the amount of compression of the spring 7. The diameter of the non-irrigated central part of the surface can be changed due to the different location of the sprayer in height and the change in the angle of inclination of the spraying element.

 This sprinkler is not complicated in design and due to the creation of a fan scanning jet allows to increase the efficiency of the surface irrigation process.

Claims (1)

 A sprinkler comprising a hollow shaft connected to a source of spray liquid, a bearing assembly installed in the shank of the hollow shaft, a spray element mounted on the hollow shaft, consisting of two disks arranged obliquely to the axis of rotation, one of which is axially movable and has means for regulating the gap between the disks, characterized in that the disk with means for regulating the gap is provided with blades, and the bearing assembly is made in the form of at least four rings, the middle of which are made of antifriction material, and the extreme ones are made of elastic.

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