RU2705677C2 - Pyrotechnic cartridge for precipitation stimulation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to technical means intended for active action on clouds in order to stimulate precipitation, and can be used also for protection of crops against hail-damages. Pyrotechnical cartridge for sediment stimulation contains a case, in which there installed is a primer-igniter, a blow-out charge and a pyro element in the form of a jet projectile with a solid fuel engine with an ice-forming composition, which is inflammable during firing, and a body with a nozzle and a critical cross-section. Jet projectile nozzle is made telescopic, consisting of two parts, movable and fixed. Fixed part is connected to housing of pyro-element, and movable is made with possibility of axial movement and fixation on fixed part. Cap primer and blow-off charge are arranged in close proximity to each other in fixed part of jet projectile nozzle.

EFFECT: invention increases efficiency of the pyrotechnic cartridge by increasing the range of flight of the pyro-element and increasing the angle of opening the jet of effluent combustion products.

1 cl, 3 dwg

Description

The invention relates to technical means intended for active impacts on clouds to stimulate precipitation and can also be used to protect crops from hail.

Various technical means are known for active impacts on clouds, consisting of a cartridge sleeve with a capsule bushing, a powder charge and a projectile containing a fuse and an explosive bomb with a crystallizing reagent (Bibilashvili N.Sh. Burtsev I.I. Seregin Yu.A. on the organization and conduct of anti-hail works, L. Gidrometeoizdat, 1981, pp. 37-39).

A disadvantage of the known technical means is low efficiency, which is due to the local distribution of the crystallizing reagent in the cloud layer as a result of a projectile explosion.

Known pyrotechnic cartridge for stimulating precipitation, containing a sleeve with an igniter capsule, enclosed in a sleeve of expelling powder charge and a pyroelement with an ice-forming composition (Patron PV-26. Technical description and operating manual, LLC, PO Box A-1928. - 1979, p. 5-8).

In the process of active impact on the clouds in order to stimulate precipitation from special cartridges attached to the fuselage of the aircraft, cartridges are shot into the cloud. At the same time, during the firing process, the pyroelement ignites inside the cartridge from the flame of the expelled powder charge and is released into the atmosphere. During the movement of the pyroelement in the atmosphere, a plume of active smoke is formed, under the influence of which the necessary effect of precipitation is formed in the cloud.

The disadvantage of this technical solution is the low efficiency, which is due to the fact that the range of the pyroelement after the shot is insignificant and is only 80-100 m, which excludes the possibility of aimed shooting through the clouds within 2-3 km from the aircraft.

A pyrotechnic cartridge for stimulating precipitation is known, which contains a sleeve, an igniter capsule, an expelled powder charge and a pyroelement with an ice-forming composition that ignites when fired, and the pyroelement is made in the form of a rocket with a solid propellant charge, and the ice-forming composition is included in this charge (Patent RF2105947, Application: 96110994/02, 05/29/1996 IPC: F42B 4/02, A01G 15/00 - prototype).

The specified cartridge is used as follows.

In the process of active impact on the clouds, in order to stimulate precipitation, they carry out the shooting of a cartridge into the cloudy environment from an airplane. In this case, when the igniter capsule is triggered, the expelling powder charge lights up. The resulting gases in the liner emit a projectile into the atmosphere. In this case, the rays of fire from the expelling powder charge through the holes in the disk partition ignite the solid propellant powder charge of the rocket. After the shot, the projectile moves in the atmosphere not only due to the momentum from the shot, but also due to the reactive force generated as a result of the outflow of gases from the nozzle block. During the movement of the projectile in the cloud layer, a plume of active smoke is formed, during the interaction of which with the cloud environment the necessary precipitation effect is formed.

The main disadvantages are the cartridge’s insufficiently high efficiency, due to the fact that part of the cartridge’s volume is used for a knockout charge and a baffle, which, in turn, leads to a decrease in the cartridge’s useful volume with an ice-forming composition, a decrease in the degree of expansion of combustion products, and, as a result, a decrease sowing area.

The objective of the invention is to increase the efficiency of the pyrotechnic cartridge by increasing the flight range of the pyroelement and increasing the angle of the jet of expiring combustion products.

The solution to this problem is achieved by the fact that, in the proposed pyrotechnic cartridge for precipitation stimulation, containing a sleeve, in which an igniter capsule, an expulsion charge and a pyroelement in the form of a rocket with a solid fuel engine with an ice-forming composition igniting during firing, and containing a housing with the nozzle and the critical section according to the invention, the nozzle of the rocket is made telescopic, consisting of two parts, movable and stationary, while the fixed part is connected with the body of the pyroelement, and the movable is made with the possibility of axial movement and fixation on the fixed part, while the igniter caps and the expelling charge are placed in close proximity to each other in the fixed part of the nozzle of the rocket.

The invention is illustrated in the drawing, where in FIG. 1 shows a longitudinal section of the proposed pyrotechnic cartridge to stimulate precipitation in the initial position, FIG. 2 shows a longitudinal section of the proposed pyrotechnic cartridge to stimulate precipitation in the process of extension from the sleeve, FIG. 3 shows a longitudinal section of the proposed pyrotechnic cartridge to stimulate precipitation during its movement in the clouds and dispersion of the ice-forming composition.

The pyrotechnic cartridge for stimulating precipitation contains a sleeve 1, in which a primer 2 and a pyroelement 3 are installed, made in the form of a rocket with a solid fuel engine, comprising a housing 4 with a nozzle 5 and a critical section 6, and the ice-forming composition is included in the composition of the solid fuel. The jet nozzle is made telescopic, consisting of two parts, fixed 7, connected to the shell body 4, and movable 8, made with the possibility of axial movement and fixation on the fixed part 7. The expelling charge 9 is placed in the fixed part 7 of the nozzle 5 of the solid fuel engine in the immediate vicinity of the igniter 2 and interacts with it.

The proposed pyrotechnic cartridge to stimulate precipitation works as follows.

In the process of active impact on the clouds, in order to stimulate precipitation, they carry out the shooting of a cartridge into the cloudy environment from an airplane. In this case, when the igniter capsule 2 is triggered, the knockout charge 9 located in the fixed part of the nozzle 7 lights up and, after some time, through the critical section 6, the ice-forming composition of the pyroelement 3 is ignited. Under the action of the combustion products of the knockout charge 9 expanding in the sleeve 1 , the pyroelectric element 3 begins to move from the capsule 2, while the fixed part of the nozzle 7 enters the movable part 8, after which the movable part 8 is fixed on the stationary 7 using fixing elements (not shown), thus increasing the degree of expansion of the nozzle 5 and while creating more optimal conditions for the expiration of the combustion products of solid fuels with an ice-forming composition.

After the shot, pyroelement 3 moves in the atmosphere not so much due to the momentum from the shot, but rather due to the reactive thrust generated as a result of gas exhausting from the combustion of the ice-forming composition from nozzle 5. During active movement of pyroelement 3, a plume of active smoke is formed in the cloud layer, with the interaction of which with the cloud environment forms the necessary precipitation effect, but at the same time, due to the larger diameter of the nozzle exit 5 and its opening angle, the sowing process of the ice-forming composition occurs more effectively.

Using the proposed technical solution will improve the efficiency of the projectile by increasing the range of the pyroelement and increasing the opening angle of the jet of expiring combustion products.

Claims (1)

Pyrotechnic cartridge for stimulating precipitation, containing a sleeve in which an igniter capsule, an expulsion charge and a pyroelement in the form of a rocket with a solid fuel engine with an ice-forming composition igniting during firing, and containing a body with a nozzle and a critical cross section, characterized in that the nozzle are installed missile made telescopic, consisting of two parts, movable and stationary, while the fixed part is connected to the body of the pyroelement, and the movable made with the possibility sevogo moving and fixing on the stationary portion, wherein the primer and lifting charge positioned in close proximity to each other in the stationary part of the projectile nozzle.

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