RU2031738C1 - Sprinkler - Google Patents

Abstract

FIELD: chemical industry, agriculture. SUBSTANCE: sprinkler has turbine fitted on drive shaft. To adjust clearance between disks spring with variable initial compression is used which is arranged above disk installed for displacement. EFFECT: provision of directed sprinkling of liquids. 6 dwg

Description

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

 Known sprayer containing a housing with a casing, a rotating spray gun in the form of a disk with a conical shell and a hole. The outer surface of the shell has blades [1].

 A disadvantage of the known device is the inability to form a scanning jet.

 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 [2].

 The disadvantage of this device is its low efficiency when used as a liquid sprinkler during irrigation.

 The closest in technical essence and the achieved positive effect to the claimed invention is a sprinkler containing a drive shaft coaxially mounted in a cylindrical body and made in the form of rigidly connected axes and a hollow cylinder with holes, a spray element in the form of two disks mounted obliquely to the axis of rotation of the disks, one of which is installed with the possibility of movement in the axial direction, and means for regulating the gap between the disks [3].

 The disadvantages of the known atomizer are the inability to automatically maintain the range of the jet, as well as to use an external energy source, which rotates the atomizing elements of the liquid.

 The objective of the invention is to increase the efficiency of irrigation.

 This task is achieved in that the sprinkler comprising a drive shaft coaxially mounted in a cylindrical housing and made in the form of a rigidly connected axis and a hollow cylinder with holes, a spray element mounted on the shaft from two disks arranged obliquely to the axis of rotation, one of which is mounted with the possibility of axial movement, and means for regulating the gap between the disks, according to the invention, is equipped with a turbine mounted on the drive shaft, and means for regulating the gap between dy discs is in the form placed over installed movably disk springs with adjustable initial compression.

 This sprayer automatically maintains the range of the jet, which allows irrigation in the required area regardless of the pressure of the liquid at the inlet of the sprayer. By changing the initial compression of the spring, it is possible to simply increase or decrease the size of the irrigation area, as well as the magnitude of the dispersion of the liquid. The turbine is driven under fluid pressure, and the spray element rotates due to the rotation of the turbine.

The invention is illustrated in the drawings, where figure 1 shows a General view of the device; figure 2 - scheme of the device during irrigation at the initial moment; figure 3 - the same, when you rotate the spray element; figure 4 - the same, when you rotate the spray element 180 ^about ; figure 5 - the same, when the rotation of the spray element by 270 ^about ; figure 6 is a view of the irrigated surface.

 The sprayer contains a drive shaft 1 coaxially mounted in a cylindrical housing 2 and made in the form of a rigidly connected axis 3 and a hollow cylinder 4.

 The shaft 1 is placed on the one hand in the rolling bearing 5, and on the other hand in the sliding bearing 6. The rolling bearing 5 is located in the support bed 7, fastened with bolts 8 and washers 9 to the housing 2, and is closed by a cover 10, which is supported by the ring 11 on the inner race of the bearing 5. The sliding bearing 6 consists of a sleeve 12 with holes and is pressed into her sleeve 13 of a polymeric material.

 A turbine 15 is rigidly mounted on the axis 4 of the shaft 1 by means of a pin 14. The hollow cylinder 4 of the shaft 1 is made with holes 16 in the lower part, and a spray element 17 consisting of two disks 18 and 19, inclined to the axis of rotation, is fixed on its upper part and supports 20 and 21 for them, and the disk 19 is spring-loaded with 22 nuts 23 and 24 and can be moved along the axis 25, rigidly fixed by ribs 26 in the support 20 of the disk 18. Inside the support 21 of the disk 19 is a cuff 27, preventing leaks liquids.

 The rolling bearing 5 is sealed against liquid by means of a gasket 28 mounted outside the cylinder 4 and pressed by screws 29 through the ring 30 into a recess in the housing 2.

 The spray gun works as follows.

 The sprayed liquid under pressure enters the housing 2 of the sprayer. Under the influence of the fluid pressure, the turbine 15, the composite shaft 1 and the spray element 17 begin to rotate. Then, the fluid through the hole 16 enters through the hollow cylinder 4 of the shaft 1 into the spray element 17. Under the action of the fluid pressure, the disk 19 rises above the disk 18 along the axis 25. Thus between the disks 18 and 19, an annular gap is formed through which the fluid flows in the form of a fan stream. In this case, due to the rotation of the sprayer and the arrangement of the disks 18 and 19 at an angle to the axis of rotation, a fan stream is scanned, i.e. in any radial direction, it has different, but periodically repeating angles of departure (see figure 2, 3, 4 and 5). Due to this, irrigation of the treated surface in the form of a circle is achieved with the exception of its central part (see Fig.6). The diameter of the irrigated surface can be changed by adjusting the amount of compression of the spring 22. The diameter of the non-irrigated part of the surface can be changed due to the different height distribution of the sprayer and the angle of inclination of the disks 18 and 19.

 The proposed sprayer by creating a fan scanning jet can significantly increase the efficiency of the process of irrigation of the surface.

Claims (1)

 A SPRAYER comprising a drive shaft coaxially mounted in a cylindrical body and made in the form of a rigidly connected axis and a hollow cylinder with holes, a spray element mounted on the shaft from two disks arranged obliquely to the axis of rotation, one of which is mounted for axial movement, and means for regulating the gap between the disks, characterized in that it is equipped with a turbine mounted on the drive shaft, and means for regulating the gap between the disks is made in the form of constant over movably mounted disk springs with adjustable initial compression.

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