BG65460B1 - Rocket affecting atmospheric processes - Google Patents

Abstract

The invention relates to a new design of hail-blasting rocket effecting hail-storm clouds by spraying a chemical reagent in them in order to prevent any hail storms and for weather modification. The rocket comprises a stabilizing unit (1), nozzle unit (2) with a system for start-up and self-destruction, unit (3) with rocket fuel, bottom of the engine (4) with a self-destruction system, anti-hail head (5) with chemical reagent and container (6). The latter serves to protect the rocket during its shipment and storage, for a guide in the rocket start-up and as starter engine, and is in the form of a glass-roving tube, closed on both its ends with a cover (7) and bottom (8). Stabilizers (16) and cross-bar (14) of the stabilizing unit are designed in such a way as to stabilize the rocket, attributing its rotational motion around its longitudinal axis by angular speed of about 20 s-1. A rubber cup (15) is fitted around the crossbar (14) sealing the space between the rocket and container (6), and reduces the loss of the initial speed. In unit (2), systems for the start-up of the rocket and for self-destruction are fitted. The start-up system comprises two electric igniters (30), engine charge igniter (32) and cable of the electric igniters (21). The self-destruction system has a time relay (27), two detonators (19), wires for the time relay (20) and detonator cord (25). The driving unit (3) of the rocket comprises a unit with missile fuel (34), isolation chamber (33) and engine chamber (35). On the side of the rocket head, in the jet fuel unit (34), a flame carrier is mounted in the form, for example, of blocks. In the bottom (4) of the engine another system for self-destruction, two capsule-detonators (38) and detonation cord (37) are found. The head of rocket (5) comprises the top of rocket (45), regent generator having three reagent compactions (42, 46 and 48), mounted in the chamber of head (44), so that the zone of apertures (47 and 49) is left free. In the chamber of head (44) ten apertures are machined for spraying the reagent.

Description

Technical field

The invention relates to a rocket for impact on atmospheric processes, which is used in agriculture to prevent adverse atmospheric processes and protect crops from potential damage and damage.

BACKGROUND OF THE INVENTION

Known is the rocket for impact on atmospheric processes, consisting of a container in which are located in series connected stabilizing unit, nozzle block with a system of start and self-liquidation, engine block with rocket fuel, bottom and anti-ship rocket with chemical reagent. The stabilizer assembly is made up of stabilizers mounted in a rubber cuff bracket, the stabilizing unit being connected to a nozzle unit housing a nozzle connected to two lighters and a igniter. A nozzle start system and a first self-eradication system are provided to the nozzle block and a second self-eradication system to the bottom, and the electric lighters are connected to a igniter and a cable, which at its other end is split and mounted at the poles of a jack plug. mounted in the container. The first self-destruct system consists of a time relay mounted in the nozzle, two nozzle caps attached to the nozzle carrier and relay wires and a detonating cord passing through poisons in the carrier. In the nozzle carrier are made grooves in which sealing rings are placed. A starter stopper is installed in the narrowest part of the nozzle. The bottom and the engine block form a pressurized combustion chamber, and two caps and a detonating cord are provided at the bottom. A sealing ring is located in the channel at the bottom, and a buckle for the head of the anti-aircraft missile, which is connected to a chamber shaped at the bottom, is located in the channels. To the bottom is mounted a firework and reagent press, fixed to the chamber and to the top of the head of the anti-aircraft rocket / 1 /.

The famous rocket is of great height and requires a relatively large amount of self-destructive explosive - about 0.5 kg, which makes the rocket dangerous in operation. The large mass of the rocket - about 10 kg makes it dangerous, since a large part of it - about 6 kg falls to the ground.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a rocket for impact on atmospheric processes that has a limited maximum flight altitude and a relatively large radius of action and increases the horizontal flight time of the rocket. The problem is solved with a rocket for impact on the known rocket for impact on the atmospheric processes, consisting of a container in which are placed in series connected stabilizing unit, nozzle block with a system for start and self-liquidation, engine block with rocket fuel, bottom and anti-ship rocket with a chemical reagent. The stabilizer assembly is made up of stabilizers mounted in a rubber cuff bracket, the stabilizing unit being connected to a nozzle unit housing a nozzle connected to two lighters and a igniter. A nozzle start system and a first self-eradication system are provided to the nozzle block and a second self-eradication system to the bottom, and the electric lighters are connected to a igniter and a cable, which at its other end is split and mounted at the poles of a jack plug. mounted in the container. The first self-destruct system consists of a time relay mounted in the nozzle, two nozzle caps attached to the nozzle carrier and relay wires and a detonating cord passing through poisons in the carrier. In the nozzle carrier are made grooves in which sealing rings are placed. A starter stopper is installed in the narrowest part of the nozzle. The bottom and the engine block form a pressurized combustion chamber, and two caps and a detonating cord are provided at the bottom. A sealing ring is located at the bottom of the bottom, and a buckle for the head of the anti-aircraft missile, which is connected to the rocket, is located in the channels.

65460 Bl camera shaped at the bottom. To the bottom is mounted a firework and reagent press, fixed to the camera and to the top of the head of the anti-aircraft missile. According to the invention, the jack plug is protected by a plug, and a lock is located in the container under the nozzle block. Two buffers are provided to the container - the bottom and the front, the bottom buffer is secured to the retainer and the front buffer to the lid located at the bottom of the container. Between the stabilizers are placed from 4 to 8 starter charges, in which the engine block is made of an insulation chamber, fixedly connected to the nozzle and a combustion chamber, on the side of the head of the anti-aircraft missile to the engine block is installed fireworks. At the bottom is provided a second self-destruct system consisting of three reagent presses mounted in the chamber of the anti-aircraft missile head. Holes are made for mounting holes in them on the fire line with insulating bushings. In the chamber, four openings were made in the area between the reagent presses and six openings were made between the presses.

According to an embodiment, the nozzle and bottom are made of phenolic resins with glass fibers, and the critical cross section with the smallest internal diameter of the nozzle is made of carbon-phenolic material.

The nozzle mounting part is d = 19 mm in diameter.

The insulation chamber of the engine block is 150 mm long.

The four openings are made with diameters d = 12 mm and are oriented towards each other at 90 °, and the six openings are made in the chamber of the head with d = 12 mm and are oriented towards each other at 60 °.

The inner cylindrical part of the insulation chamber to the engine block is threaded.

The advantages of this construction are the presence of a very small explosive for self-liquidation - about 10 g of TNT equivalent, a small total mass of about 3 kg, of which 1.5 kg fall to the ground, the presence of two systems of self-elimination ensures fragmentation of the pieces and increases the reliability of self-liquidation. All this makes the rocket much safer. The new design allows for cheap manufacturing.

Description of the attached figures

Figure 1 shows a full rocket without a container, in (a) showing a rocket with closed stabilizers and in (b) showing a rocket with open stabilizers.

Figure 2 shows the rocket in a container.

Figure 3 shows the stabilizing unit.

Figure 4 shows the nozzle block.

Figure 5 shows the rocket's engine block.

Figure 6 shows the bottom of the engine block with part of the rocket head.

Figure 7 shows the missile head.

Examples of carrying out the invention

An exemplary rocket is shown in the figures and consists of a stabilizing unit 1, a nozzle unit 2 with a start and self-liquidation system, an engine block 3 with rocket fuel, a bottom 4 with a self-destruct system, an anti-hailing head 5 with a chemical reagent and a container 6, container b serves to protect the rocket during transport and storage, to guide the launch of the rocket and to start the engine. It can be made of impregnated cardboard or fiberglass and is a glass tube closed at both ends with a lid но and a bottom 8. A jack plug 9 is mounted on the bottom bottom for connection to the launcher, which is used to supply the relay for a time. 27 and for the activation of lighters 30. The jack plug 9 is protected against external influences by a rubber transport plug 10 with an extinguisher. A retainer 100 is mounted between the bottom 8 and the rocket in the container 6, which centers the rocket stabilizers, ensuring that they are not damaged during transportation and pre-installation while maintaining the rocket at the bottom of the container. To seal the connection between the container 6 and the rocket, two rubber buffers are mounted - the bottom buffer 11 and the front buffer 13. The bottom buffer 11 is mounted on the retainer 10, and the front buffer is mounted on the lid 7, which serves to close the container. At the bottom of the container 6, between stabilizers

65460 B1 grooves 16 are accommodated from 4 to 8 starting charges 12. The stabilizers 16 and carrier 14 of the stabilizing block 1 are made of AlMgSi alloy. They are designed to stabilize the rocket by giving it a rotational motion about its longitudinal axis at an angular velocity of about 20 s ^_l This ensures a stable flight of the rocket along the trajectory. A rubber cuff 15 is placed around the carrier 14, which seals the space between the rocket and the container 6 and reduces the loss of starting speed. A groove 17 is provided in the carrier 14, in which a fastener is provided, which provides the connection of the stabilizing unit 1 to the nozzle unit 2 and to the combustion chamber 35 of the engine.

The nozzle unit 2 houses the rocket launcher and self-destruct system. The nozzle 18 is made of phenolic resins with AG4V glass fibers. Due to the erosion of the engine during operation, the critical section of the nozzle 18 is made of carbon-phenolic material. The starting system consists of two lighters 30, an engine charge igniter 32, and a lighters cable 21. The latter at one end is gripped by the lighters 30 and at the other end is split and mounted at the poles of the jack plug 9. The lighters 30 and the ignition 32 of the engine charge are mounted in a specially designed cavity in the nozzle 18 and closed. in this cavity with a cap 3. The nozzle mounting part has a reduced diameter and more specifically d = 19 mm unlike other embodiments where this part is d = 24 mm. The self-destruct system consists of a nozzle mounted in the nozzle and a time relay 26 fitted with a ring 27, two detonator caps 19 mounted in the nozzle holder, wires 20 for a time relay passing through three specially made holes in the nozzle carrier 22 for this purpose 18 and detonating cord 25. The wires 20 at one end are secured to the relay for time 21, and at the other end are output to the plug 9. The grooves are made in the nozzle carrier, where sealing rings 23,24 and 28 are placed. To achieve the required pressure in the first stage of Art mouth, in the narrowest part 51 of the nozzle 18, a starter plug 29 is mounted, through which the cable 21. A nozzle 18 at one end is made of a smaller diameter bed, in which is placed the insulation chamber 33, mounted fixedly to the nozzle. 18.

The rocket engine unit 3 consists of a rocket block 34, an insulation chamber 33 of 150 mm length, which is fixed to the nozzle 18 and the combustion chamber 35 of the engine. On the side of the rocket head 5, a flame carrier in the form of, for example, blocks is mounted in the rocket unit 34. In the same section, the rocket unit 34 is made in the form of a tail 36 with threaded grooves for installation with the bottom 4.

The bottom 4 is made of phenolic resins with glass fibers. It houses another system of self-liquidation. The bottom 4 is mounted on the engine block 3 and seals the combustion chamber 33. The head 5 of the rocket is mounted thereon. Two caps of detonator 38 and detonating cord 37 are mounted in the bottom 4. Channels are made in the bottom housing, one of which houses a sealing ring 39, a buckle channel 52, which provides the connection to the combustion chamber 35 of the engine block 3 and a duct. 53, which houses the clasp for connection with the rocket head 5. The inner cylindrical part of the engine block 3 is threaded in the same way as the tail of the engine block. In this way, the bottom 4 is fixed to the engine block 3.

The rocket head 5 consists of a rocket tip 45 fixedly attached to the chamber 44 of the head 5. The reagent generator consists of three reagent compartments 42, 46 and 48 mounted in the chamber 44 of the head 5 such that the hole area 47 and 49 to be free. Pressures 42 and 48 are made with openings in the middle so that a fire line 50 with an insulating sleeve 43 and an insulating sleeve 41 is mounted therein. In the area between the reagent press 46 and the reagent press48, four are made in the chamber 44 of the head 5. openings with d = 12 mm, oriented 90 ° to each other. In the area between reagent compression 42 and reagent compression 48, six openings with d - 12 mm oriented towards each other at 60 ° are made in the chamber 44 of the head 5. The fire line 50 is mounted freely to the bottom 4. The compression 42 is fixed to the chamber 44 of the head 5 and to the bottom 4.

65460 Bl

The reagent press 46 is fixed to the chamber 44 of the head 5 and to the tip 45 of the head 5.

Application of the invention

The missile works as follows.

A jack plug 9 is mounted at the bottom bottom for the launcher connection, which serves to power the electronic timer and activate the lighter. The jack plug 9 is protected from external influences by a rubber transport stopper 10 with a stopper, the plug being removed before loading the rocket into the launcher. When the rocket takes off, the lid of the container falls out. At the lower end of the container between the stabilizers 16 is placed a starter charge 12. It is activated by the engine gases and serves to increase the starting speed to reach a value of 60-65 m / s.

On the outside, the container is marked with an explosive mark (1.4 S); a sign for placing the container at startup / UP /; type, serial number of the rocket in the container, batch and year of manufacture, mark of the point of attachment to the launcher.

The stabilizers 16 open when the rocket leaves the container 6.

The time relay 27 is activated by the rocket control panel and serves to hold the self-destruct for about 38 s (providing time for the reagent to be sprayed). After the set time has elapsed, the time relay 27 activates the detonator caps 19. They actuate the detonating cord 25 and thus the nozzle 18, part of the combustion chamber of the engine block 3 and the stabilizers 16 with the carrier 22 of the nozzle 18 are broken into pieces.

At the bottom 4, the two detonator caps 38 mounted are triggered when the reagent is burned and the detonating cord 37 is activated. Thus, the bottom 4, part of the combustion chamber and the rocket head 5 are broken into pieces.

During the combustion of the rocket fuel unit 34, the three reagent compartments 42, 46 and 48 are activated through the fire line 50, ignited and the combustion products begin to flow through the openings 47 and 49 of the chamber 44 of Chapter 5.

The spreading time of the re agent is 30 s and the maximum scattering time can be varied. At the completion of the reagent spraying, the bottom 4 and head 5 self-destruct system are activated.

Claims (6)

Claims 1. An atmospheric process rocket consisting of a container (6) in which a stabilizing unit (1), a nozzle unit (2) with a starting and self-liquidating system, a rocket propulsion unit (3) are arranged in series. 34), bottom (4) and anti-ship rocket (5) with chemical reagent, the stabilizing unit (1) being made of stabilizers (16) mounted in a carrier (14) with a rubber sleeve (15), wherein the stabilizing unit (1) ) is connected to the nozzle unit (2) in which the nozzle (18) is connected, connected to two electric lighters (30) and ignited (32), in which a rocket launch system and a first self-liquidation system are provided to the nozzle unit (2) and a second self-liquidation system to the bottom (4), with electrical lighters (30) connected to a igniter (32) and a cable (21), which cable (21) at its other end is split and mounted on the poles of a jack (9) mounted in the container (6), wherein the first self-liquidation system consists of a time relay (27) provided with a ring (26) and mounted in the nozzle (18), with two cap-detonators (19) connected to a carrier (22) of the nozzle (18) and disassembled. laid wires (20) for the relay (27) and detonating cord (25) passing through openings in the carrier (22), and in the carrier (22) of the nozzle (18) are made grooves in which are sealed rings (23, 24 and 28), wherein a starter stopper (29) is mounted in the narrowest part (51) of the nozzle (18), the bottom (4) and the engine block (3) with rocket fuel (34) forming a sealed combustion chamber (24). 35), and two capsules detonators (38) and a detonating cord (37) are provided at the bottom (4), in which a sealing ring (39) is located in the channel (40) and in the channels (52) and 53) - fastener for the lava of the anti-aircraft missile (5), the head of which is connected to a chamber (44) formed at the bottom (4), wherein a firework (43) and reagent is mounted to the bottom (4) 65460 Bl compression (42) fixed to the chamber (44) and to the tip (45) of the missile head (5), characterized in that the jack plug (9) is protected by a plug (10), and in the container (6) below the nozzle block (2) there is a retainer (100), and two buffers are provided to the container (6) - the bottom (11) and the front (13), the bottom buffer (11) is attached to the retainer ( 100) and the front (13) to a cover (7) located at the bottom end of the container (6), and between 4 stabilizers (16) there are 4 to 8 starting charges (12), whereby the engine block (3) is made of insulation chamber (33), fixedly connected to the nozzle (18) and from the combustion chamber (35), a fire line (50) is mounted on the side of the head of the anti-aircraft missile (5) and a fire (50) is mounted to the bottom (4) a second self-destruct system is provided, consisting of three reagent compartments (42,46 and 48) mounted in the chamber (44) of the missile head (5), with openings for mounting in them (42 and 48). the fire line (50) with insulating bushings (43 and 41), and four openings (47) and between the holes in the chamber (44) in the area between the reagent presses (46 and 48) HVAC (42 and 48) are formed six openings (49). Rocket according to claim 1, characterized in that the nozzle (18) and the bottom (4) are made of phenolic resins with glass fibers and the critical cross section with the inner smallest diameter (51) of the nozzle (18) is made of carbon -phenolic material. Rocket according to claim 1, characterized in that the mounting part of the nozzle (18) is d = 19 mm in diameter. Rocket according to claim 1, characterized in that the insulation chamber (33) of the rocket motor unit (3) is 150 mm long. 5. The rocket according to claim 1, characterized in that the four openings (47) are made with d = 12 mm, oriented towards each other at 90 °, and the six openings (49) are made with d = 12 mm, oriented one relative to another 60 °. Rocket according to claim 1, characterized in that the inner cylindrical portion of the insulation chamber (33) to the engine block (3) is threaded. Attachment: 7 figures