RU222029U1 - Rotary rainmaker for sprinklers - Google Patents

Abstract

The utility model relates to agriculture and is designed to form raindrops of irrigation water at the outlet of the fittings of the water supply pipeline of sprinklers. The problem posed in the utility model is solved in a rotary rain-forming device for sprinklers, containing a housing, a connecting sleeve, a pipe, a nozzle located between the housing and the sleeve, a deflector element consisting of convex guide plates for deflecting the liquid flow in the transverse direction, characterized in that the guide plates have the shape of semicircles, the arcs of which are located above the bases along an inclined path from the center of rotation to the extreme part of the deflector, the lower part of which has a cone-shaped cutout for a rotational device when the water flow falls on the tip of the deflector.

Description

The utility model relates to agriculture and is designed to form raindrops of irrigation water at the outlet of the fittings of the water supply pipeline of sprinklers.

A RAIN FORMING DEVICE FOR A CIRCULAR ACTION WIDE-WAVE SPRIZER MACHINE is known (patent RU No. 70742 U1, IPC A01G25/09, publ. 02.20.2008, Bulletin No. 5), containing a sprinkler nozzle and a throttling element installed on a water supply pipeline, in this case the throttling element is made in in the form of a glass with a centrally located calibrated hole in its bottom part, and the glass is located perpendicular to the water supply pipeline, and its bottom part inside the water supply pipeline, characterized in that a washer with a calibrated hole is placed between the sprinkler nozzle and the glass.

The disadvantage of this device is the low width of the artificial rain.

The closest in technical essence to a utility model is a diffuser device (Diffuser Device, patent US 7644877 B2, В05В1/26 (2006.01), published on January 12, 2010), containing a housing, a connecting sleeve, a pipe, a nozzle located between the housing and the sleeve, a deflector element consisting of convex guide plates to deflect the flow of liquid in the transverse direction (translation from English. This prior art device has a partly hollow central body C, which may be connected to a liquid feed line by means of a connecting sleeve M. Liquid , whose flow direction is substantially coincident with the axis X'' of the device, passes through the sleeve M and is conveyed into a convergent nozzle U, interposed between the central body C and the sleeve M. Liquid is first accelerated in the nozzle U and then directed to a deflector member, downstream of the nozzle U, which member is composed of the plates D and D', and is adapted to divert flow to a substantially transverse direction, to disperse it outward ).

The disadvantage of this invention is the small width of rain capture and the fact that in this deflector rain drops with a volume of more than 35 mm ³ are formed, which negatively affect the soil, forming erosion, of dark chestnut and chestnut soils of light loamy and sandy loam mechanical composition.

The technical objective of the utility model is to reduce the negative impact on dark chestnut and chestnut soils of light loamy and sandy loam mechanical composition due to a new rotary rain-forming device for sprinklers, the size (volume) of a raindrop of which is less than 30 mm ³ .

This problem is solved in a rotary rain-forming device for sprinklers, containing a housing, a connecting sleeve, a pipe, a nozzle located between the housing and the sleeve, a deflector element consisting of convex guide plates for deflecting the liquid flow in the transverse direction, characterized in that the guide plates have the shape of semicircles, the arcs of which are located above the bases along an oblique path from the center of rotation to the extreme part of the deflector, the lower part of which has a cone-shaped cutout for a rotational device when the water flow falls on the tip of the deflector.

The technical result of the proposed design is that when the flow of irrigation water falls on the tip of the deflector, the water, dissecting on the tip, enters the bed between the semicircles of the guide plates and under the influence of pressure in the absence of friction force in the cone-shaped cutout of the lower part of the deflector, the irrigation water imparts a rotational movement deflector, thereby acquiring additional centrifugal acceleration, which allows you to divide portions of irrigation water into smaller volumes up to 30 mm ³ .

The difference from the prototype is that in a rotational rain-forming device, the upper part of the deflector element is made in the form of guide plates in the shape of semicircles, the arcs of which are located above the bases along an inclined path from the center of rotation to the extreme part of the deflector, and the flat lower part of the deflector element has a cone-shaped a cutout into which a cone-shaped rotation axis with a bar is inserted. The axis has a smaller radius at the base of the cone than that of the cutout, which gives the deflector element one point of interaction for rotational movement with the body of the rainmaker.

The rotary rain-forming device for sprinklers is presented in seven figures (Fig. 1 - general top view; Fig. 2 - top view AA; Fig. 3 - section AA; Fig. 4 - top view of the rotary deflector; Fig. 5 - section B-B; Fig. 6 - 3D model of the deflector side view; Fig. 7 - 3D model of the deflector top view) and works as follows: body 1 has a sleeve 2 with a pipe 3, into which a nozzle 4 is screwed, along which irrigation water is supplied to the deflector element 5. Irrigation water is cut off by the tip 12 of the upper part 10 of the deflector element 5 and falls between the convex guides 6, which have the shape of semicircles. Rotation on axis 7 of the deflector element begins due to additional centrifugal acceleration, which allows you to divide portions of irrigation water into smaller volumes up to 30 mm ³ . The axis of rotation 7 has the shape of a cone 9 with a smaller base radius than the cone-shaped cutout 8 of the deflector element 5. To avoid the deflector falling out of the axis 7, the cone 9 is limited by a strip 11, which is attached to the deflector element 5 using bolts, the nuts of which are inserted into the holes 13.

Claims (1)

Rotary rain-forming device for sprinklers, containing a housing, a connecting sleeve, a pipe, a nozzle located between the housing and the sleeve, a deflector element consisting of convex guide plates for deflecting the fluid flow in the transverse direction, characterized in that the guide plates have the shape of semicircles, arcs which are located above the bases along an inclined path from the center of rotation to the extreme part of the deflector, the lower part of which has a cone-shaped cutout for a rotational device when the water flow falls on the tip of the deflector.