RU68854U1 - SPRAY NOZZLE - Google Patents

Abstract

The utility model relates to agriculture, namely to irrigation of agricultural crops, and can be used on sprinkler machines that irrigate in motion. The purpose of creating a utility model is the ability to change the flow rate, rain intensity and, consequently, expand the range of irrigation standards. The case of the sprinkler nozzle consists of an upper and lower part, the lower part of the body having one hole offset from the central axis, to which, with the possibility of 180 ° rotation, the upper part of the body with two holes of different diameters over which hemispherical deflectors are located, is connected, the axes of the holes of the upper and lower cases are located on the same plane, and one of the holes of the upper case is aligned with the hole of the lower case, and the projection and stops of both rpusov which are disposed in the annular groove of the upper housing. The efficiency of the sprinkler nozzle is achieved by the possibility of changing the flow rate and intensity of the rain, which will expand the range of irrigation norms.

Description

The utility model relates to agriculture, namely to irrigation of agricultural crops, and can be used on sprinkler machines that irrigate in motion.

Known sprinkler nozzle, spraying the jet in the form of a flat expanded fan, consisting of a cylindrical body with a thread and having a hex nut. In the upper part, the nozzle has a cutout to which a channel with expansion from below approaches [1].

The disadvantage of the sprinkler nozzle is the lack of a device for adjusting the flow.

Known deflector nozzle, which consists of a housing and a deflector [2].

The disadvantage of the baffle nozzle is that it cannot change the flow rate and, therefore, the intensity of the rain at a given water pressure.

The purpose of developing a utility model is the ability to change the flow rate and intensity of rain at a given pressure, which will expand the range of irrigation rates, for example, by sprinkler machines operating in motion, without changing the speed of their movement in the field.

This goal is achieved by the fact that the nozzle body consists of upper and lower parts, the lower part of the body having one hole offset from the central axis, to which, with the possibility of rotation through 180 °, the upper part of the body with two holes of different diameters is connected,

over which hemispherical deflectors are located, with the axes of the holes of the upper and lower cases being located on the same plane and one of the holes of the upper case being aligned with the hole of the lower case, and the stops and protrusion of both cases, which are located in the annular groove of the upper case, provide exact coincidence of the axes of the holes.

Figure 1 shows a General view of the sprinkler nozzle, figure 2 is a section aa.

The sprinkler nozzle consists of a lower housing 1 with an opening 2 offset from the central axis and a protrusion 3. From above, an upper housing 4 with openings 5 and 6, with hemispherical deflectors 7, 8 and having an annular groove with stops 9, 10. The seal between the holes and the ends of both cases carries a rubber ring 11. The upper case has a rigidly fixed handle 12, which serves to rotate it at a given angle. Rotation of the upper part of the housing by 180 ° clockwise or counterclockwise is carried out until the contact stops 9 or 10 with the protrusion 3, which ensure the coincidence of the holes 2, 5 or 2, 6 in both positions.

The upper housing 4 is made of a collapsible design, not conventionally shown, which allows the protrusion 3 to be located in its annular groove. The dimensions of the protrusion, stops, annular grooves, the diameters of the housings and the rubber ring ensure reliable pressing of the contacting planes of both housings.

The sprinkler nozzle works as follows. When installing it, for example, on the water-conducting belt of a machine operating in motion, water under pressure enters the nozzle through the opening 2 of the lower housing 1, the opening 5 of the upper housing 4 and the formed jet strikes the hemispherical deflector 7 and is sprayed onto the area. The seal between the housings is carried out by the rubber ring 11. The exact alignment of the holes 2 and 5 of the housings provides a protrusion 3, which abuts the stop 9. Speed

machine movements and nozzle consumption provide the required irrigation rate with a given rain intensity. Changing the irrigation rate, for example, in the direction of decrease, without changing the speed of the machine, is carried out by changing the flow rate of nozzles. To do this, the upper housing 4 by the handle 12 is rotated clockwise until the stop 10 touches the protrusion 3 of the housing 1. In this position, the hole 6 is combined with the hole 2 and the water jet, striking the hemispherical deflector 8, irrigates the area. The nozzle consumption is reduced, since the diameter of the hole 6 is less than the diameter of the hole 5. A decrease in consumption will lead to a decrease in rain intensity with the same irrigation area, and a decrease in irrigation rate without changing the speed of the machine.

The efficiency of using a utility model is determined by the following advantages.

The design of the sprinkler nozzle allows you to quickly, without much effort, change its flow rate with the same water pressure. A change in the nozzle flow rate will lead to a change in the rain intensity and, consequently, a change in the irrigation rate (with the same irrigation time). Exact coincidence of the axes of the holes when turning through 180 ° is provided by the stops on the movable and the protrusion on the fixed body of the nozzle.

Claims (1)

Sprinkler nozzle, consisting of a housing with a hole and a deflector, characterized in that, in order to change the flow rate, rain intensity and expand the range of irrigation norms, the housing consists of upper and lower parts, the lower part of the housing having one hole offset from the central axis to which the upper part of the casing is connected with the possibility of rotation through 180 ° with two holes of different diameters, above which hemispherical deflectors are located, the axis of the holes of the upper and lower cases being located on one a plane and one of the holes of the upper case is aligned with the hole of the lower case, and the exact coincidence of the axes of the holes provides a protrusion and stops of both cases, which are located in the annular groove of the upper case.