SU1061845A1 - Hydraulic pulse sprayer - Google Patents

Abstract

1. A HYDROPULSE SPRAYER containing an external pipe connected to a source of liquid with an outlet nozzle, a central pipe axially arranged with an annular gap with an axial nozzle and a waveguide that communicates with a central channel with an external pipe and an opening with a central pipe, and installed in an annular a gate valve with a return spring, characterized in that, in order to increase the efficiency of the sprayer by reducing hydraulic losses. it is equipped with an additional valve with a locking spring located in the outlet section of the axial nozzle; and the hole is made along the axis of the center, central pipe and waveguide. 2. The sprayer according to claim 1, which is based on the fact that the additional valve is designed in the form of a gripe (L trimmer.

Description

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The invention relates to hydraulic engineering and can be used for the atomization of various liquids, including fuels, when fed to the furnaces and combustion chambers.

Known hydropulsive sprayer containing two concentric located t. Tubes, in the annular gap between which the closure valve l is installed.

When fluid is supplied to this spray valve, the valve closes abruptly, which causes a hydraulic shock in the system and an increase in pressure in the central pipe. However, in the case of a reverse shock wave, the pressure decreases below the worker, which in total gives a negative effect when using this design for spraying.

Closest to the invention is a hydropulsive sprayer containing an external pipe connected to the source of liquid supply with an outlet nozzle placed in it along the c axis. an annular gap, a central tube with an axial nozzle and a waveguide, communicating with a central channel with an outer tube and an aperture with a central tube, and a stop valve installed in the annular gap with a return spring 2.

A disadvantage of the known device is that the valve of the central pipe allows liquid to flow through the central nozzle in the initial and final phases of the direct wave when the pressure of the water hammer has not reached the maximum value, which significantly reduces the atomization efficiency. In addition, the valve device causes large water losses when the liquid flows from the waveguide to the central tube, firstly, due to repeated abrupt changes in the direction of fluid flow (axial in the waveguide, radial in the hole axial in the valve, again radial in the hole and again axial in the central tube), secondly, due to multiple changes in the flow area (narrowing at the entrance to the orifice, expansion at the exit, again narrowing at the outlet of the valve and expansion at the entrance to the central tube). These losses reduce the economics of the installation and impair the quality of atomization.

The purpose of the invention is to increase the efficiency of the sprayer by reducing hydraulic losses.

The goal is achieved by the fact that a hydropulsive sprayer containing an outer pipe connected to a source of liquid with an outlet nozzle, a central pipe with an axial nozzle and a waveguide axially with an annular gap, communicates with a central channel with an outer pipe and a hole with a central pipe , and a return spring installed in the annular gap of the locking valve, provided with an outlet spring located in the

The cross section of the axial nozzle is equipped with an additional valve with a locking spring, and the hole is made on the axis of the central tube and waveguide.

At the same time an additional valve

5 is made in the form of a mushroom dissector.,

The drawing shows the proposed spray.

Hydro Pulsation Sprayer

0 contains under | (outer pipe 1 connected to the source with output nozzle 2 and axially arranged with an annular gap 3 central pipe 4 with valve 5, axial nozzle b and wave 5 with water 7 connected by a central channel 8 with external pipe 1 and a hole 9 s central pipe 4. In the annular gap 3, a stop valve 10 is installed with a return

0 by a spring 11. A valve 5, which is optional; made in the form of a mushroom-shaped dissector 12 with a locking spring 13 and installed in the outlet section of an axial nozzle

, 6, and the hole 9 is made along the axis of the central tube 4 and the waveguide 7.

The proposed structure works as follows.

The fluid is supplied under working pressure into the outer pipe 1, the valve 5 is closed, the shut-off valve 10 is open, and the liquid is sprayed through the outlet nozzle 2. As a result of fluid movement, it acts on the valve 10, which is flowed down and closes the annular gap 3 As a result of the sudden overlap of this cross section, a water hammer occurs, the wave of which is accompanied by an increase in pressure. Spread towards the flow and

through the waveguide 7, it is transmitted to the central tube 4, where, upon reaching its maximum value, opens valve 5, moving

divider 12 forward. Wherein

high-pressure fluid is sprayed through the gap between the axial nozzle b and the divider 12. When the pressure drops, valve 5 closes and the backward surge of the water hammer creates a vacuum, opens the shut-off valve 10, through which the fluid flows to the outlet nozzle 20. With increasing speed

fluid closes again

check valve 10, and the cycle repeats.

Due to the installation of the valve 5 with a locking spring 13, which is designed for the maximum pressure of the hydraulic shock, fluid is fed through the central nozzle b under a pressure that exceeds working pressure by 6–8 times. The amount of fluid with a sevenfold increase in pressure passing through the central nozzle 6,

at this, it is 15% of the total flow.

Thus, 15% of the liquid in the proposed sprayer at a working pressure of 20 kg / cm is sprayed under a pressure of 140 kg / cm, which will significantly improve the overall quality of sawing and, accordingly, burning, if we apply the proposed

fuel atomization structure.

Claims (2)

1. HYDROPULSE SPRAY, containing connected to a source of fluid supply outside. a pipe with an output nozzle, a central pipe placed therein with an annular clearance, an axial pipe with an axial nozzle and a waveguide communicating with the central channel e with an external pipe and an opening with a central pipe, and a shut-off valve with a return spring installed in the annular gap, characterized in that that, in order to increase the efficiency of the atomizer by reducing hydraulic losses, it is equipped with an additional valve with a locking spring located in the outlet section of the axial nozzle; and the hole is made on the cent axis. ral tube and waveguide. 2. The sprayer according to claim 1, characterized in that the additional valve is made in the form of a mushroom-shaped divider. ⁷ ΖΖΖΖΖΖΖΖΖΖΖ ^ ΖΖΖΖΖΖΖΖΖΖ ΖΖΖΣΖ η 5 ' ΕΖΣΣΖΖΣΖΖΖΖΖΖΣΖ and ··? h ^z ^ T2 7772 2 2 2-777772 22 777 • -L / 27/27/7/2277777 ^