RU2653889C1 - Multi-position suspension equipment for aerosol impact on clouds - Google Patents

Abstract

FIELD: manufacturing technology.

SUBSTANCE: invention relates to mobile installations that affect the weather conditions, namely, to scatter clouds and fogs, to prevent hailstones by causing artificial precipitation, and can be used in the system of hydrometeorological aviation, delivering installations directly to the treated clouds. Multi-position installation of aerosol impact on clouds includes a support for the distributed placement in its mounting holes of generators, the shell casings of which are closed through the seal by an end plug and a nozzle sleeve. Generators contain electric ignitors connected via loops to the terminals of the external start-up control unit, and the pyrotechnic composition, armored in the form of a piece of fire, forming a functional aerosol during combustion, discharged through the exit nozzle. Shell casings of generators having a section that is weakened by an annular groove are rigidly fixed in the staggered mounting holes of the support provided with brackets of suspension to the fuselage of the aircraft. End caps and nozzle sleeves are made in the form of threaded nuts. Electric ignition plumes, mounted in an abutment to the open end of a pyrotechnic checker above the nozzle sleeve, through the output nozzle are switched to the terminals of the cable channel of the controller connected to the remote control panel located in the cabin of the aircraft.

EFFECT: invention provides an increase in the efficiency of aerosol processing of clouds directly from within with the possibility of reusable use of a simple and reliable design of a multi-position installation.

3 cl, 5 dwg

Description

The invention relates to mobile installations with many generators, the pyrotechnic equipment of which when burned forms an aerosol that acts on the weather, namely to disperse clouds and fogs, prevent hail by causing artificial precipitation, and can be used in a hydrometeorological aviation system delivering the installations directly to processed clouds.

The level of this technical field is characterized by a pyrotechnic cartridge, which is launched to act on clouds, described in patent RU 131144 U1, F42B 15/145, 2013, containing a sleeve, an electroencapsulating sleeve, an expelling charge communicating by means of a perforated obturator through an ignition diaphragm fire channel the charge adjacent to the end of the functional checkers installed in the housing of the aerosol generator, the bottom of which is equipped with a Central hole.

The housing of the aerosol generator through a shock absorber made of sponge rubber is loaded with a lid, rolled in a circle with the open end of the sleeve.

This pyrotechnic cartridge is characterized in that the perforator perforations are located in the perimeter of the central opening of the bottom of the generator housing, the diameter of which exceeds the fire-transfer channel of the diaphragm, and the functional block is equipped with an inert layer on the side of the cover, and the sponge rubber shock absorber is made in the form of a removable set of plates, and between the igniter charge and functional checker placed a layer of transition charge in the form of a composition of pyrotechnic compositions, adjacent elements.

The pyrotechnic cartridge described above, after starting from the installation guides in the cloud, functions autonomously, dispersing the gaseous products of combustion of the initiated equipment - an aerosol that actively affects the meteorological situation, preventing hail.

The disadvantage of the described pyrotechnic cartridge is the small amount of local exposure to the cloud due to autonomous launch and single operation.

The noted drawback is eliminated in the multi-unit installation of aerosol effects on fog and clouds according to the patent RU 144407 U1, A01G 15/00, 2014, which is selected as the closest analogue of the proposed one by the technical nature and the number of matching features.

Known ground installation of aerosol effects on fog and clouds includes a stand with a support for distributed mounting of generators containing an electric igniter associated with the connector of the control unit of the external starting device, and a pyrotechnic charge, during the combustion of which a functional aerosol is released through the exit nozzle.

A feature of the well-known multi-seat (positional) installation is 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. A blower fan is installed under the aerosol accumulator for forced lifting of the generated aerosol by air flow through the distribution grid through an adjacent telescopic pipe.

A pyrotechnic charge initiated by an electric igniter connected to an external control unit is installed in the generator’s case, and a receiver is made under the cover with an outlet nozzle, and on the outside of the receiver there is a flanged threaded sleeve for screwing into the mounting hole of the multi-position battery.

In the known installation, the entire generated aerosol volume is accumulated from working generators in a common battery, from which a functional gaseous stream is formed by a fan through an adjacent pipe, including ice formation centers uniformly distributed in the aerosol fed into the atmosphere into the fog and clouds being processed.

The aerosol in the supply pipe to a height is mixed with 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 are scattered, and hail is prevented.

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 weather conditions, for the most efficient use of explored ascending air streams that transport the aerosol to a given height.

An additional effect of the functioning of the known installation is a different mode of activating the generators distributed on the battery in the required quantity, in volleys, 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 organizing its ascent by air flow 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 nozzle sleeve limits the rotation of the generators into the mounting holes of the battery until it stops, 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.

However, the advantages noted above are inherent disadvantages determined by the ground-based location of the well-known multi-position installation, which excludes its mobile movement to the zone of operational influence on the hydrometeorological situation, and the low efficiency of the generated aerosol due to the forced removal from the treated cloud, into which it is transported by ascending air currents, which laborious and involves very large losses of reagent.

Secondly, the stationary ground installation is characterized by unsatisfactory efficiency of the intended action due to the probabilistic nature of combining the upward flow of the functional aerosol with clouds that require targeted processing, located at a noticeable distance and height.

In this case, of course, mobility of relocation of the installation in a remote urban hazard direction is excluded.

Thus, dispersing the entire volume of the generated functional aerosol into the treated clouds by a known multi-station stationary installation is fundamentally impossible.

In addition, in a known ground installation it is impossible to obtain the initial distribution of the reagent over the entire area of the cloud being treated, since the generated functional aerosol is formed by a local flow, which then spreads horizontally naturally.

The technical problem to which the present invention is directed is to modernize the design of a multi-position installation suitable for hanging on an aircraft fuselage, which delivers it directly to the clouds being processed to better improve the processing efficiency of city-forming clouds when reagent is distributed over the maximum area of the processed echelon.

The required technical result is achieved by the fact that in the well-known multi-position pendant installation of aerosol exposure to clouds, including a support for distributed distribution of generators in its mounting holes, the housing sleeves of which are closed through a seal with an end cap and a nozzle sleeve containing electric igniters connected by cables to the terminals of the control unit external launch, and armored along generators of a piece of pyrotechnic composition, while burning forming a functional aeroso b, ejected through the outlet nozzle, according to the invention, the case sleeves of generators having a section weakened by an annular groove above the nozzle sleeve are rigidly fixed in staggered mounting holes of an extended support provided with suspension brackets to the aircraft fuselage, and end caps and nozzle sleeves are made in in the form of threaded nuts, while the cables of electric igniters mounted adjacent to the open end of the pyrotechnic block above the nozzle sleeve, through The battery is switched from the nozzle raceway terminals controller associated with the remote external trigger disposed in the aircraft cabin.

Another feature of the multi-position installation is that the generator case shells are placed inside a common fairing, on which the electric igniter cables are fixed with a sticky layer of metallized tapes, and the pyrotechnic checkers of the generators functional equipment at the adjacency end are equipped with an igniter tablet placed in the prechamber.

Distinctive features of the proposed technical solution provided a significant increase in the efficiency of aerosol processing of clouds directly from the inside, using a simple and reliable design of a multi-position installation, which is suspended from the aircraft fuselage and is controlled by its intended purpose from the working cabin automatically, according to the reconnaissance hydrometeorological situation.

An additional technical effect is achieved due to the possibility of regenerating the generators for reuse of the installation, which reduces the capital and material costs of carrying out safety work.

Rigid fastening of the generator housing sleeves in the mounting mounting holes of the support allows the pendant installation to be regenerated due to their inter-operational cleaning of slags and soot and subsequent assembly at the generator component site, when screwing with threaded plugs and nozzle bushings all the way into the gaskets.

The execution of body shells with a section weakened by means of an annular groove above the nozzle sleeve ensures its mechanical destruction in the event of unauthorized excess pressure from the gases generated during volumetric combustion of gases, so that they are ejected in the opposite direction from the carrier aircraft, thereby eliminating fragmentation effect on its fuselage.

Brackets for supporting the extended generators with supporting brackets are necessary for quick-hanging the installation on the fuselage of the aircraft, delivering it directly to the clouds being processed, which increases the efficiency of the impact on the meteorological situation.

The compact arrangement of the generators in a checkerboard pattern on an extended support, which is suspended along the incoming air flow, reduces the wind load when flying to a lightweight type installation.

The execution of end caps and nozzle sleeves in the form of threaded nuts is necessary for their quick release, providing technological access to the inside of the sleeves for cleaning them from deposits, sediments in the form of sludge and agglomerate, as well as for mobile reverse assembly with body sleeves equipped with a functional charge, which is equipped with an electric igniter external initiation, thus preparing the generators for reuse as intended.

The electrical connection of the electric igniter of the functional equipment of each generator by means of loops laid through the nozzle hole of the sleeve outside its housing sleeve to the cable channel terminals provides switching with a programmable collector automatically, in accordance with the meteorological conditions of the clouds, which controls the order and operation mode of the multi-position installation by commands from the remote control external launch, located in the cockpit of the aircraft.

The switching of electric igniters adjacent to the open end of the pyrotechnic charge of the generators through the output nozzle of the sleeve with the terminals of the general controller ensures the routine initiation of their end combustion with the supply of a functional aerosol directly to the treated cloud.

At the same time, the fastening of electric igniter loops connecting with the controller terminals on the surface of the supporting fairing with self-adhesive metallized tapes simplifies the electrical circuit design and ensures the monolithic interconnection of its structural elements, preventing breakages in flight.

The implementation of the installation control unit in the form of a controller is the most technically advanced, simple and reliable, adaptable with the control panel of the aircraft.

The controller’s communication through the cable channel with the aircraft’s remote control ensures the initiation of the operation of the unit’s generators from the cockpit in the order and mode specified by the program.

Placing the generators distributed in the support of the installation in the common fairing protects them from the lateral wind load of the incoming flow, which makes it possible to reduce the bearing strength and massiveness of the mount by a multiple.

In this case, by means of an adhesive layer of metallized tapes, plumes of electric igniters are monolithically attached to the fairing, simplifying the electrical connection of the means of initiating the functional equipment of the generators with the controller.

The equipment of the pyrotechnic checkers of the equipment of the generators at the butt end of the junction with an ignition tablet is necessary to enhance the heat pulse transmitted at the junction, which ensures uninterrupted movement of the front of the end combustion.

Placing the igniter tablet in the free volume of the pre-chamber of the junction of the adjacent pyrotechnic checkers ensures the accumulation of hot gaseous combustion products, which increase the intensity of reliable initiation of combustion of the upstream checker.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of the claims of a combination of essential features.

The drawings show:

in FIG. 1 - general view of the suspension installation;

in FIG. 2 is the same, top view, along arrow A in FIG. one;

in FIG. 3 is a section along BB in FIG. one;

in FIG. 4 is a view B in FIG. 3;

in FIG. 5 is a view D in FIG. 3.

The proposed multi-position installation, which is suspended on the fuselage of an airplane or helicopter, delivering it directly to the clouds being treated, includes a support 1 (Fig. 1, 2) with distributed mounting holes 2 (Fig. 3), where the body liners 3 of generators 4 are rigidly fixed pyrotechnic checkers 5, when burning, form a functional aerosol containing ice-forming centers as a dispersed phase, mainly hydrophilic particles of silver iodide and / or potassium iodide.

Checkers 5 (Figs. 3 and 5) are armored on the outer surface with a cardboard shell 6, and between the ends of the adjoining checkers 5 an amplification tablet 7 is installed to transmit an ignition pulse through the pre-chamber 8 along the equipment of the generators 4.

The junction of adjacent checkers 5 along the perimeter is blocked by a self-adhesive tape 9, which forms a closed volume for localizing the energy of the fire force between the adjacent ends of the checkers 5.

At the ends of the casing sleeves 3 are closed through the sealing ring gaskets 10 quick-detachable threaded nuts 11 and 12, respectively, with a plug and nozzle sleeve.

To the end of the pyrotechnic checkers 5 (Figs. 3 and 4) from the nozzle sleeve 12 side there is an igniter 13 of a heat-sensitive composition equipped with an electric resistance bridge 14, which is connected via switching loops 15 to terminals 16 distributed on the support 1 (Fig. 1 ) of the controller 17, connected by a cable 18 with the remote control of the cockpit of the aircraft.

Housing sleeves 3 are placed inside a common fairing 19 and a protective casing 20, mounted on a support 1, which is equipped with brackets 21 for hanging on the fuselage of the aircraft.

The cables 15 are mounted on the fairing 19 by means of an adhesive layer of aluminum strips 22 located across.

A feature of the generators 4 is that its case sleeve 3 above the nozzle sleeve 12 has a section mechanically weakened by an annular groove 23 (Figs. 3, 4) along which fracture occurs in the event of an abnormal excess pressure inside due to volumetric burning of the functional equipment block 5 for its release into the atmosphere, preventing the emergency development of events in the installation as a whole.

The depth of the groove 23 is selected in the range of 0.5-0.7 of the wall thickness of the sleeve 3 from the conditions that when the thickness of the groove is less than 0.5 ratio, its predetermined destruction is not guaranteed, which is unsafe for the aircraft, and when the thickness of the groove 23 is greater than 0, 7 of the ratio, the structural strength of the sleeve 3 is unnecessarily weakened, up to the loss of its bearing capacity, that is, the functionality of the generator as a whole is lost.

The installation according to the invention operates as follows.

When a suspended multi-position installation is delivered to the cloud being processed from the remote control in the cockpit of the aircraft, a triggering pulse is sent to the controller 17, programmed to connect the generators 4 distributed in the support 1, in groups or in the next sequence.

In this case, an electrical impulse along the loops 15, securely fixed to the fairing 19 with self-adhesive tapes 22, is supplied to the resistance electric bridge 14, upon closing of which a spark discharge is formed, initiating the adjacent igniter 13 from the composition sensitive to thermal energy.

Actively burning igniter 13 sets fire to the pyrotechnic checker 5 (bottom according to the drawing) from the open end, during the combustion of which a functional aerosol is generated, which flows through the nozzle of the sleeve 12 into the treated cloud, where moisture is adsorbed on the hydrophilic particles of the dispersed phase (silver iodide and / or potassium iodide) .

In supercooled clouds, particles of silver iodide serve as crystallization centers for ice formation, and on particles of a sorbent of potassium iodide, moisture drops condense, which precipitate in the form of atmospheric precipitation, thereby preventing hail and rainfall.

When the checkers 5 are burned at the junction of the equipment of the generators 4, an intensifying tablet 7 is ignited, the hot combustion products of which fill the free volume of the pre-chamber 8 and the adjacent pyrotechnic checker 5 is ignited from the end, during which the process of generating a functional aerosol emitted into the treated cloud continues until the functional generator equipment 4.

After using the generators 4 for their intended purpose, the installation is removed from the suspension of the fuselage and the nuts 11 and nozzle sleeves 12 are unscrewed on the technological table, opening access to the body sleeves 3, which mechanically clean from soot, soot and settled agglomerated particles, restoring their original state. In this case, the blind nuts 11 and nozzle sleeves 12 are separately cleaned, the state of the sealing gaskets 10 is audited, which, if necessary, are replaced with new ones.

Also, the tape 22 is peeled off and the loops 15 of spent igniters 13 are removed, having previously disconnected them from the hallmarks 16.

Next, equipment and assembly of generators 4 are carried out, the casing sleeves 3 of which are not removed from the mounting holes 2 of the support 1, that is, the generators 4 of the suspended multi-seat installation are regenerated for reuse for their intended purpose.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences of the multi-position suspended aerosol exposure installation for clouds, which do not directly follow from the statement of the technical problem, are not obvious to the specialist in the local change in the hydrometeorological situation.

The manufacture of a multi-position installation according to the invention is possible in the existing pyrotechnic production in series.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

Bench and field tests of prototypes of the multi-position installation showed a high degree of reliability of operation and the effectiveness of aerosol processing of clouds, which allows us to recommend it for delivery to customers.

Claims (3)

1. A multi-position installation of aerosol exposure to clouds, including a support for the distributed placement of generators in its mounting holes, the case sleeves of which are closed through a seal with an end cap and a nozzle sleeve, containing electric igniters connected via loops to the terminals of the external start-up control unit and armored to form checkers pyrotechnic composition, when burning forming a functional aerosol ejected through the outlet nozzle, characterized in that the case guill The generators with a section weakened by an annular groove are rigidly fixed in the staggered mounting holes of the support equipped with suspension brackets to the aircraft fuselage, and the end caps and nozzle sleeves are made in the form of threaded nuts, while the electric igniter cables mounted in the adjoining open the end of the pyrotechnic checkers above the nozzle sleeve, through the output nozzle are connected to the terminals of the cable channel of the controller associated with the remote start remote control, azmeschennogo aircraft in the cockpit. 2. The multi-position installation according to claim 1, characterized in that the case liners of the generators are placed inside a common fairing, on which the electric igniter cables are fixed with an adhesive layer of metallized tapes. 3. A multi-position installation according to claim 1 or 2, characterized in that the pyrotechnic checkers of the functional equipment of the generators at the abutment end are equipped with an igniter tablet placed in a prechamber.

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