RU144407U1 - GROUND INSTALLATION OF AEROSOLIC INFLUENCE ON FOG AND CLOUDS - Google Patents

Abstract

1. Ground installation of aerosol exposure to fog and clouds, including a rack with a support for distributed mounting of generators containing an electric igniter connected to the connector of the control unit of the external starting device, and a pyrotechnic charge, during the combustion of which a functional aerosol is emitted through the output nozzle, characterized in that the support is made in the form of a cylindrical battery with mounting holes along the generatrix for mounting the generators in contact with the output nozzles inward At which the blowing fan is installed for lifting the aerosol generated air flow through a distribution grid for the adjacent tube designed teleskopicheskoy.2. Functional aerosol generator containing a pyrotechnic charge installed in the housing, initiated from an electric igniter connected to an external control unit and installed in a receiver under a cover with an output nozzle, characterized in that the electric igniter is equipped with a switching plug with a power connector, and a flange screw is mounted on the outside of the receiver a sleeve for screwing into the mounting hole of a multi-position battery, mounted on a support pillar of a ground installation.

Description

A group of utility models connected by a single inventive concept relates to mobile ground-based installations with many generators, the pyrotechnic filling of which during combustion forms an aerosol that affects the weather, namely: to disperse clouds and fogs, prevent hail and cause artificial precipitation.

The level of this technical field is characterized by the ground-based installation for aerosol processing of clouds and fog by Ice Crystal Engineering, LLC, described in e-mail: info@iceflarec.com, which is selected as the closest analogue of the proposed installation due to its technical nature and the number of matching features.

A well-known ground installation includes racks on which transverse supports are fixed for distributed mounting of interchangeable functional aerosol generators, a control panel for programmatically activating the generators, an autonomous power supply and hydrometeorological measuring equipment.

Functional aerosol generators used are those described in patent RU 83685 U1, A01C 15/00 / F42B 12/36, 2009, each of which contains a piece of pyrotechnic composition with a heat-insulating shell installed in a tubular body and connected by an electric cord to an external remote switch control axial igniter, which is mounted on an arm in the receiver, under a cylindrical cover having a nozzle hole covered by a membrane.

A feature of this generator is a constructive connection made in the form of a bottom electric sleeve adjacent to the contact group on the mounting support in the installation, a switch with a central igniter, which is carried out by means of an electric cord laid in a longitudinal channel formed in the heat-insulating shell of the case, installed with an eccentricity.

The bottom electric bush is isolated from the current-carrying case flange of a different polarity, which is adjacent to the common current-carrying bus of the support.

The igniter is mounted under the head cover with an outlet nozzle on the carrier bracket, which is geometrically closed between the cylindrical cover and the heat insulating shell of the housing.

The main disadvantage of the described design of the aerosol generator is its bottom mounting on the installation support for autonomous supply of the generated aerosol through an open nozzle opening.

In addition, the burning of an extended pyrotechnic charge from a set of adjacent checkers occurs with a deceleration to a possible attenuation, whereas for. The efficient functioning of the generator requires a progressive or stable output of a functional aerosol.

A disadvantage of the known ground-based aerosol installation is the unsatisfactory effect of the surface aerodisperse formation formed from the aerosol of autonomous generators, which quickly settles without completely processing the clouds or fog, as a result of which the precipitation is partially induced, thereby reducing the effectiveness of changing the hydrometeorological situation, in particular, protected area of mountainous terrain.

This requires repeated volley release of an additional portion of aerosol from the replaced generators, which is laborious, expensive and not always possible due to the mobility of the clouds.

The technical problem, the solution of which is directed by a group of utility models connected by a single inventive concept, is to improve the existing ground-based aerosol-forming complex, which more effectively and variably affects the local hydrometeorological situation by effectively causing artificial precipitation from clouds and fog.

The required technical result is achieved in that in a ground installation of aerosol exposure to fog and clouds, including a rack with a support for distributed mounting of generators containing an electric igniter connected to the connector of the control unit of the external starting device, and a pyrotechnic charge, during the combustion of which a functional aerosol is emitted, emitted through the outlet nozzle, at the suggestion of the authors, the support is made in the form of a cylindrical battery with mounting holes along the generatrix for mounting generators in contact with the outlet nozzles inward, under which a blower is installed to lift the generated aerosol by air flow through the distribution grid through an adjacent telescopic pipe.

Another feature of the proposed design of the ground installation is a functional aerosol generator containing a pyrotechnic charge installed in the housing, initiated by an electric igniter connected to an external control unit, and a receiver under the cover with an output nozzle, characterized in that the electric igniter is equipped with a switching plug with a power connector, and on the outside of the receiver, a flange threaded sleeve is fixed for screwing into the mounting hole of the multi-position battery, fixed on the support rack of the ground installation.

Distinctive features of the proposed technical solution for a group of utility models ensured the accumulation of the entire generated aerosol volume from the operating generators in a common battery, from which an upward flow is formed by a fan along an adjacent pipe to a height, including ice formation centers uniformly distributed in the functional aerosol supplied to the atmosphere, into cultivated fog and clouds.

The aerosol in the supply pipe mixes with the air from the fan, forming a stable technological suspension.

This aerosol suspended in air does not settle for a long time and effectively affects the hydrometeorological situation in the atmosphere, causing artificial precipitation, as a result of which fog and cloud cover disperse, preventing hail.

The implementation of a telescopic feed pipe allows you to change the height of the functional aerosol outlet depending on the terrain on which the installation is mounted, and the location of the cloud and fog, that is, variable atmospheric hydrometeorological conditions, for the most efficient use of the generated functional aerosol for its intended purpose.

An additional effect of the functioning of the proposed installation is a different mode of operation of the generators distributed on the battery: parallel or serial, in various quantities - individually, in groups, which is carried out automatically according to the program of the control unit.

Placing the generators on the battery by means of a threaded flange sleeve mounted on their housing, outside the receiver, makes the output nozzles adjoin directly to the storage capacity of the generated aerosol for its organized rise to a height.

The battery capacity serves as a receiver, where the active aerosol is mixed with the air, excluding the agglomeration of the dispersed phase, the equalization of the pressure and temperature of the functional mixture, which is measured through the passage section of the adjacent pipe.

The flange sleeve limits the rotation of the generators to the stop in the mounting holes of the battery, automatically fixing the specified location of the output nozzles.

Functional aerosol is accumulated in the plant’s accumulator from all generators to the calculated amount necessary for high-quality target processing of a cloud or fog. At the same time, the aerosol inside the accumulator is diluted with air pumped by the fan with the formation of a technological aerodisperse formation at the outlet of the supply pipe, which slowly settles in the atmosphere of the treated clouds and fog, which improves the quality of the target effect.

Therefore, each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not characteristic of the signs of disunity, that is, the stated technical problem is solved not by the sum of the effects, but by a new effect of the sum of the signs.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the proposed group of utility models does not explicitly follow for a specialist in hydrometeorology, showed that it is not known, but taking into account the possibility of industrial serial production of ground installations equipped with modernized aerosol generators for active impact on clouds and fog, it can be concluded that the criteria for patentability are met.

The essence of the proposed technical solution is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of claims of the totality of the essential features of the formula.

The drawing shows:

in FIG. 1 - ground installation for aerosol impact on the hydrometeorological situation;

in FIG. 2 - functional aerosol generator.

The proposed ground installation (Fig. 1) contains a multi-position battery 1 mounted on a rack 2 carrying a control panel 3 with autonomous power supply connected to electrical connectors 4 on the battery 1.

The battery 1 is equipped with threaded mounting holes 5 distributed around the perimeter for installing aerosol generators.

Inside the rack 2 is fixed a blower fan 6, which communicates through a distribution grid 7 with a battery 1, to the output of which a feed pipe 8 is connected, with slings 9 connected to the earth's surface.

The pipe 8 is made of articulated elements mounted with the possibility of relative longitudinal movement, where they are fixed by clamps 10, that is, telescopically extended to a predetermined height.

Functional aerosol generators are screwed into the mounting holes 5 of the battery 1 through the threaded flange bushings 11 (Fig. 2) until they stop flange.

At the same time, the nozzle outlet 12 of the cover 13 is adjacent to the cavity of the battery 1 (not shown conditionally).

In the sleeve 11 a longitudinal groove 14 is made, in which an electric cord 15 with a plug 16 is placed for communication with the electrical connector 4 on the battery 1.

When storing the generators, the plug 16 is attached with tape 17 to the housing 18 of the generator.

The power cord 15 is connected to the igniter 19, mounted under the lid 13, inside the receiver 20, above the igniter tablet 21 from a composition sensitive to thermal energy.

The igniter tablet 21 is attached to the pyrotechnic checker 22, during combustion of which an aerosol is generated, the dispersed phase of which is the active centers of ice formation.

An amplifying charge 23 is installed on the back of the checker 22, the cumulative recess 24 of which is directed through the gap 25 to the igniter tablet 21 of the downstream functional checker 22.

A longitudinal set of generator equipment 21-22-23 is fixed in a cardboard shell 26, coaxially mounted in a tubular housing 18 and closed by an inert bottom plug 27.

The installation operates as follows.

Generators of the described construction in the amount of 40-80 pcs. screw into the mounting holes 5 of the battery 1 mounted on the installation site until it stops in the flange of the threaded bushings 11, ensuring that the nozzle holes 12 in the cover 13 are adjacent to the volume of the battery 1.

Then, having freed from the adhesive tape 17, the plugs 16 are installed in the electrical connectors 4, switching with the power supply unit of the remote control 3.

Then manually from the remote control 3 or from the radio signal include the program of the operating mode of the installation, powering the generators: sequentially or in parallel with groups.

In this case, an igniter 19 is initiated by an electric pulse, the fire of which is ignited by an igniter tablet 21, which provides end-by-layer combustion of a pyrotechnic checker 22, generating a functional aerosol filling the receiver 20.

In the receiver 20, the gaseous combustion products of the checkers 22 are mixed, expanded, equalizing the pressure.

Next, the functional aerosol is jet-thrown into the accumulator 1, the volume of which is filled during the autonomous operation of each generator for 6 minutes.

When the combustion front of the checker 22 extends to the rear end, the amplification charge 23 is ignited, during the combustion of which a cumulative recess 24 forms a force of flame sharply directed to the ignition tablet 21 of the lower pyrotechnic checker 22 - the above-described cycle of interaction of the structural elements of the equipment is repeated until it is completely burned out.

The air pumped by the fan 6 is distributed in the lattice 7 in the form of a flow of laminar jets and is supplied across the radial aerosol flows from adjacent generators distributed around the perimeter of the battery 1.

In the accumulator 1, the generated aerosol is actively mixed and diluted with air, and the aerodynamic forced displacement of the functional mixture into the adjacent pipe 8 takes place.

Previously, the telescopic tube 8 is installed at a predetermined height of the aerodisperse formation, which is emitted into the atmosphere, into the volume of the treated clouds or fog.

Thus, for several hours, the automatic operation of a stationary autonomous installation is carried out in the zone of changes in the hydrometeorological situation.

The ice-forming aerosol causes the formation of artificial precipitation, as a result of which clouds and fog disperse, preventing hail.

Tests of an experimental mobile unit equipped with modernized functional aerosol generators for a group of interconnected utility models showed their reliable operation in predetermined modes, providing more efficient processing of clouds and fog, characterized by their almost complete dispersion when regulated artificial precipitation occurs, which allows us to recommend the design of the installation and components aerosol generators for delivery to customers.

Claims (2)

1. Ground installation of aerosol exposure to fog and clouds, including a rack with a support for distributed mounting of generators containing an electric igniter connected to the connector of the control unit of the external starting device, and a pyrotechnic charge, during the combustion of which a functional aerosol is emitted through the output nozzle, characterized in that the support is made in the form of a cylindrical battery with mounting holes along the generatrix for mounting the generators in contact with the output nozzles inward At which the blowing fan is installed for lifting the aerosol generated air flow through a distribution grid for the adjacent tube designed telescopic. 2. A functional aerosol generator containing a pyrotechnic charge installed in the housing, initiated from an electric igniter connected to an external control unit and installed in a receiver under a cover with an output nozzle, characterized in that the electric igniter is equipped with a switching plug with a power connector, and is fixed on the outside of the receiver to the housing flanged threaded sleeve for screwing into the mounting hole of a multi-position battery, mounted on a supporting rack of a ground installation.