CZ14882U1 - Device for increasing sprinkling range of a continuous aerosol jet - Google Patents

Abstract

The equipment for increasing the carrying radius of an aerosol stream uses the idea of reducing friction force between the outgoing micro drops and the surrounding atmosphere by surrounding the aerosol micro drops with the quickly moving carrying gas. The equipment consists of a nozzle for accelerating and forming the ongoing aerosol stream (1), into which the aerosol-gas mixture is discharged from a mixing chamber (4) having the same axis. The cylindrical mixing chamber (4) comprises aerosol inlet nozzles (3) and a gas inlet channel (8) provided with a conical member (5).

Description

A device for increasing the spraying of a continuous aerosol beam

Technical field

The invention relates to an aerosol jet spraying device used for extinguishing fires and spraying chemical sprayings in agriculture. The device can also be used in other cases where it is necessary to deliver the aerosol over a longer distance.

BACKGROUND OF THE INVENTION

Systems that achieve high exit velocities of the aerosol stream from the accelerator nozzle by using high liquid pressures are used to eject a continuous aerosol beam into the atmosphere. They are designed as spray nozzles injecting micro-drops of liquid into the atmospheric air accelerator nozzle.

Their drawback is that the microdrop of fluid enters a relatively stationary atmospheric environment at high speed. The surface of the microdrop is hampered by a force that is non-linearly dependent on the difference in the velocity vectors of the exiting microdroplet from the nozzle and the velocity vector of the moving gases of the ambient atmosphere and on the adhesion forces of the atmosphere gases against the fired drop. This implies the following limitations. The higher the output microdot speed is, the higher the liquid pressure.

The higher the difference in vectors of the microdropper velocity and the surrounding atmosphere, the greater the frictional force that brakes the microdropper. Higher frictional force causes shortening of the range and at the same time a greater amount of heat generated by friction of the surface of the drop in the atmosphere is supplied to the microdrop, which in the extreme case may cause its evaporation.

The essence of the technical solution

[0007] The present invention eliminates the above-mentioned disadvantages of the continuous aerosol jet spraying device according to the invention, which consists of a nozzle for accelerating and shaping the aerosol output stream and an accelerating chamber. whose axis is identical to that of the nozzle for accelerating and shaping the aerosol output stream. The aerosol is supplied to the acceleration chamber by a plurality of nozzles arranged radially in the housing of the cylindrical aerosol supply chamber, the axis of which is common to the axis of the acceleration chamber. The acceleration chamber is connected to the gas supply channel. The longitudinal shape of the gas supply channel is conical at the point of entry into the acceleration chamber, and at this point an axially displaceable conical body is provided to control the amount and velocity of the gas entering the acceleration chamber. The nozzle for accelerating and shaping the aerosol output stream is preferably provided with a homogenizing chamber of the exiting mixture.

With the apparatus of the present invention, fluid droplets are ejected from the nozzle along with a rapidly moving gas stream. Thus, the frictional force is generated by the difference in velocity vectors of the exiting gases that envelop the microdroplets and by the friction between the entraining gas and the surrounding atmosphere gases. This friction is always less than the friction between the microdrop and the gases of the surrounding atmosphere. It is advantageous to use a gas mixture or a gas with stable symmetric molecules as entraining gas. The gas selection is controlled by the use of the device. Atmospheric air is also suitable for ease of use.

The advantage of the technical solution is the possibility to use low pressures of working media and high spraying of aerosol continuous jet. As the principle implies, the device can also operate in pulse mode.

-1 CZ 14882 Ul

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawings, in which in FIG. 1 is a longitudinal section of the device and in FIG.

Examples of technical solution

The apparatus for increasing the spray of the continuous aerosol jet of FIG. 1 consists of a conventional nozzle 11 for accelerating and shaping the aerosol outlet stream, in the central part of which a homogenizing chamber 7 can advantageously be arranged. 4, the axes of which are identical to that the aerosol is fed to the acceleration chamber 4 by a set of nozzles 3, which are designed here to be drilled radially in the housing of the cylindrical aerosol supply chamber 6. The acceleration chamber 4 is connected to the gas inlet channel 8 through an opening through which the carrier gas is introduced. The longitudinal shape of the gas inlet channel 8 is conical at the entrance to the acceleration chamber 4, and an axially displaceable conical body 5 is provided in this space to regulate the amount and velocity of the gas entering the acceleration chamber 4. either the acceleration chamber 4 or, in the design of FIG. 2, the aerosol supply chamber 6.

Industrial applicability

The device according to the technical solution can be used wherever it is necessary to deliver the aerosol over a longer distance. This is particularly beneficial in fire extinguishing, spraying in agriculture, but also in military technology.

Claims (4)

A device for increasing the spray of a continuous aerosol jet, comprising a nozzle (1) for accelerating and shaping an aerosol outlet stream and an acceleration chamber (4), characterized in that the inlet of the nozzle (1) for accelerating and shaping the aerosol outlet stream is an outlet the accelerator chamber (4), wherein the axis of the nozzle (1) for accelerating and shaping the aerosol output stream is identical to the axis of the accelerator chamber (4). Apparatus according to claim 1, characterized in that a radial array of nozzles (6) is provided in the housing (6) of the cylindrical aerosol supply chamber. 3) leading to the acceleration chamber (4). Device according to claim 1 or 2, characterized in that the acceleration chamber (4) is connected at the inlet side to the gas supply channel (8), the longitudinal shape of the gas supply channel (8) at the point of entry into the acceleration chamber (4). 4) is conical and an axially displaceable conical body (5) is arranged at the conical entrance. Apparatus according to claims 1 to 3, characterized in that in the nozzle (1) on In order to accelerate and shape the aerosol discharge stream, a discharge chamber homogenization chamber (7) is provided.