SU387741A1 - HYDROPULSE PACKAGE - Google Patents

Description

I

The invention relates to the field of agriculture and can be used on long-range sprinkler irrigation plants for irrigating agricultural crops.

Hydro-impulse nozzles are known, including a housing, a central and an outer nozzle, a valve and a spring mounted on the outer surface of the guide sleeve.

However, these nozzles do not have the ability to work at different initial pressures of the pipeline, as well as to adjust the distance of jet ejection through the neutral nozzle. A spring mounted on the outer surface of the guide bush creates resistance to the movement of water flow and, work in water, quickly deteriorates.

The aim of the invention is to provide the ability to control the range of jet ejection, adjust the operation of the hydro-pulse nozzle under various initial pressures of the pump, as well as improve the shape of the annular flow and protect the spring of aggressive water.

This is achieved by the fact that the open nozzle and the nozzles are mounted for movement along the axis of the nozzle and are interconnected by an adjusting screw, the plane of rotation KOTOiporo is perpendicular to the axis of the nozzle. The inner tube communicates by means of a washer with a valve spring.

The drawing shows the proposed nozzle.

The nozzle has a cylindrical detachable body /, on one of the halves of which an external branch pipe 2 is screwed. It has the possibility of axial movement along the nozzle. An external nozzle 3 is located on the nozzle 2, which also has the possibility of axial movement along the external nozzle. At the inner nozzle 4, the central nozzle 5 is inserted. The nozzle 4 has the possibility of free movement along the nozzle axis. An annular duct 6 is formed between the inner and outer nozzles. On the outer surface of the inner nozzle 4, stabilizing ribs 7 are welded. the outer surface of the inner pipe and the wave tube 10. At the installation site of the valve 9, the nozzle body is made expanded. Narul; on the surface of the valve has curved edges //. The pressure washer 12 and the spring 13 are located inside the clanan 9. The longitudinal movement of the valve is limited to the side of the nozzles 3, 5 by the body /, and in the opposite direction by the lock 14. The cylindrical ribs 15 are fitted on the wave tube.

part of the housing is terminated by a flange 16 for connecting a hydro-motor nozzle to a pressure pipe.

The operation of the hydro-pulse nozzle is carried out as follows.

Water from the pump through the pipeline is supplied to the nozzle and released into the atmosphere by two jets through the sollo 5 and the annular duct 6. The velocity head acting on the blunt-shaped annular edges 11 moves the valve 9 in the watchman of the nozzles 5 and 5, compresses the spring 13 and overlaps the annular duct 6. At the same time, a hydraulic shock occurs, causing an increase in pressure and, consequently, an increase in the rate of fluid flow through the nozzle 5. The hydraulic shock spreads to the air damper (bell), which quenches it. After the overpressure phase, the underpressure phase begins. During this period, the spring 13 retracts the valve 9 to its original position, and again the flow of fluid through the annular duct again flows. The cycle repeats.

In the case of a change in the working event in the supply pressure pipe, the pressure is adjusted to the pressure of the spring 13.

by rotating the screws 8 in the cavity, perpendicular to the OSI nozzle. The movement is transmitted from the external nozzle 2 to the internal one, then through the pressure washer 12 to the spring 13. The jet ejection range and the rain intensity are controlled by moving the external nozzle 5 along the axis of the nozzle, thereby controlling the output area of the annular duct 6.

Subject invention

Claims (2)

1. Hydraulic immersion nozzle including a cylindrical body, internal and external branch pipes, a spring-loaded valve and an internal and external nozzle, characterized in that, in order to ensure the possibility of controlling the jet ejection range, the external nozzle and branch pipes are installed with the possibility of moving along the nozzle axes, the latter are interconnected by an adjusting screw, the plane of rotation of which is perpendicular to the nozzle axis, the inner nozzle interacting by means of a washer with the valve spring. 2. The nozzle of claim 1, wherein the spring is sealed inside the valve.