RU2246693C1 - Method for destruction of ice or soil cover - Google Patents

Abstract

FIELD: blasting operations, applicable for destruction of continuity of the ice or soil cover and formation of a passage in them, for example, for destruction of an ice gorge.

SUBSTANCE: the method consists in placement of parachute systems with ammunition on the flight vehicle, their delivery to the preset point, release and blast of ammunition. Elongated flexible explosive charges with initiating devices with a preset delay time connected with one end to penetrators, and with the other end - to the parachutes, assembled in packing cases, are used as ammunition. After the release, the parachute systems turn the flexible explosive charges to the rectilinear position with the penetrators down, separate them from the parachute systems, and the initiating devices are systems, and the initiating devices are remotely cocked.

EFFECT: enhanced efficiency of destruction of the ice or soil cover.

10 dwg

Description

The invention relates to blasting and can be used to destroy the continuity of the ice or soil cover and the formation of a channel in them, for example, to eliminate ice jam.

A known method of destruction of the ice cover, including the installation under ice in one place of several explosive charges and their alternate detonation with a time interval equal to the propagation period of flexural-gravitational waves (see RF patent No. 2037140, IPC 6 F 42 D 1/00, 7 / 00, 1/055, publ. 09.06.95, Bull. No. 16).

The disadvantage of this method is the complexity, danger and low productivity of the installation of ice explosive charges, for example, in the conditions of formation of congestion on the rivers.

A known method of destroying ice cover, including placing parachute systems (PS) on an aircraft with containers with ammunition in individual launch tubes, delivering them and dumping them at a specified location, turning the launch tubes relative to their attachment points to the container, launching at a specified distance from ice and the destruction of ammunition (see RF application No. 93016414, IPC 6 F 42 D 7/00, E 02 B 15/02, publ. 03/29/93).

This method is selected as a prototype.

The disadvantage of this method is the low proportion of explosive (10-20%) in the equipment loaded on board the aircraft (container, launch tubes, ammunition body, propellant charges, launch system, etc.), designed to destroy the ice or ground cover , and, accordingly, low efficiency. To reduce the effectiveness also leads to the destruction of ammunition on the surface of the ice or soil cover.

The objective of the invention is to increase the share of explosives (BB) in the equipment loaded on board the aircraft, designed to destroy the ice or soil cover, and the deepening of the explosive into the ice or soil cover before undermining.

Effect: increase the efficiency of the destruction of the ice or soil cover.

The problem is solved in that by the method of destroying ice or soil cover, including placing on the aircraft parachute systems (PS) containers with ammunition, delivering them to a specified location, dumping, turning the ammunition relative to their attachment points to the containers, separating the ammunition from containers and the detonation of ammunition, as ammunition use the assembled elongated flexible explosive charges stacked with initiating devices with a given delay time, each of which is one con they are connected with intruders, and the other with a stabilizing parachute, which, in turn, is connected by a discontinuous connection with the container, after which the PS is dropped at a given height, the flexible explosive charges are deployed into straight position with the prongs down, at the same time they break their connections with the containers, and remote initiators are charged devices and the opening of the stabilizing parachutes of each of the ammunition, when the ammunition reaches the ice or ground cover, the penetrator is introduced into this cover and the b epripasov using initiators with a preset time delay.

The claimed method differs from the prototype in that, as ammunition, elongated flexible explosive charges assembled in stacking are used with initiating devices with a predetermined delay time, each of which is connected to the intruders at one end, and with a stabilizing parachute at the other end, which in turn is connected by an explosive connection with the container in this case, after the PS is discharged at a given height, the flexible explosive charges are deployed in a straight position with the penetrators down, at the same time breaking their ties with the containers, making remote initiating and conducting devices disclosure stabilizing parachutes each of ammunition, the ammunition when the ice or ground cover carried pronikatelya introduction to this cover and explosion of ammunition using initiators with a preset time delay.

Placing containers with ammunition connected to the parachute systems on the aircraft, delivering them to a specified location, dumping, turning the ammunition relative to their attachment points to the containers, separating the ammunition from the containers and destroying the ammunition ensures the destruction of the ice or soil cover.

The use of ammunition assembled in laying elongated flexible explosive charges with initiating devices with a predetermined delay time, each of which is connected to the intruders at one end and the other with a stabilizing parachute, which in turn is connected by an explosive connection with the container, can be increased by 2-6 times the proportion of explosive from the equipment loaded on board the aircraft designed to destroy ice or soil cover, which, accordingly, increases the efficiency of the method.

Deployment after the PS is discharged at a given height of flexible explosive charges into a straight position with the prongs down, simultaneous breaking of their connection with the containers and the opening of the stabilizing parachutes of each of the ammunition allows you to set a speed that ensures that an ammunition with a flexible explosive charge is introduced into this cover when the ammunition reaches the ice cover to the optimum depth, at a charge detonation at which, with the help of an initiating device, with a given time delay, maximum damage is achieved land or soil cover.

Remote cocking of initiating devices of flexible explosive charges ensures the safety of the aircraft.

The invention is illustrated by drawings.

Figure 1 and 2 shows a General view from the side and top of the placement of the PS with ammunition in the aircraft;

figure 3 shows a General view of the ammunition;

figure 4; 5 and 6 depict PS types with ammunition placed and fixed in it;

in Fig.7; 8; 9 and 10 depict the stages of the descent of the PS and ammunition.

Preparation for the operation to destroy ice or soil cover is carried out in the following order.

First, on the aircraft 1 (see figures 1 and 2) place PS 2 with ammunition 3 (see figure 3). As ammunition 3 use elongated flexible explosive charges 4 with initiating devices 5 with a predetermined delay time, connected at one end with penetrators 6, and the other end with stabilizing parachutes 7. Ammunition 3 (see Fig. 4-6) one by one or in groups ( in this example, three) are stacked in containers 8 of parachute systems and secured by a group of bands 9 connected by decaying locks 10. Containers 8 are made with an open top end. The locks 10 are made with the possibility of opening them at a given height, in this example, using the links 11 at the command of the temporary lock 12. The container 8 is connected to the parachute 15 by the second group of belts 13 and the strand 14 with the possibility of placing the munition 3 above the open end of the container when opening parachute 15. Stabilizing parachutes 7 of ammunition are connected by an explosive connection 16 with the container 8 (see Fig. 8).

After the arrival of aircraft 1 at a given location, the PS 2 is sequentially reset (in this example, from a height of ~ 2000 m). When the parachutes 15 are opened, the containers 8 are turned open face down (see Figs. 7-10). At the command of the temporary lock 12 using the links 11, the locks 10 open and release the tape 9 of the mounting of ammunition. Further, the flexible charges of explosives 4 are deployed in a straight line with downward penetrators 5. After which, at the same time, communications 16 are broken and the ammunition 3 is separated from the PS 2. At this moment, the remote arming with a predetermined time delay of the initiating devices 5 and the stabilizing parachutes 7 of each of the ammunition open.

The divergence of the ammunition dropped at the same submarine at the required distance occurs due to the different area of their stabilizing parachutes, in this example, differing by ~ 20% (Sp ₁ = 0.2 m ² ; Sp ₂ = 0.25 m ² ; Sp ₃ = 0.30 m ² - with three ammunition with a mass of elongated flexible explosive charge of 4 ~ 200 kg and with a penetrator mass of 6 ~ 100 kg for each ammunition).

As a result, the distance between the points of incidence of the ammunition of one PS and the extreme ammunition of neighboring PS will be ~ 15-20 m (see Fig. 10) - at an average wind speed of up to 5 m / s (in the atmosphere layer from the ice surface to the height of the PS discharge).

When the SS is discharged from a height of 2000 m (above the surface of the ice block), the speed at which the ammunition encounters an ice barrier is ~ 150 m / s.

When the penetrator 6 moves in ice, a cavity is formed with a diameter equal to the diameter of the penetrator. During the implementation, the penetrator is braked, and the flexible charge 4 is compressed along its length. When compressed along the length of the charge expands to the entire cavity of the cavity (to the diameter of the penetrator), while maintaining an average density. The compressed charge moves with the penetrator like a solid, providing constant support.

At a projectile meeting speed with an ice barrier of 150 m / s, the length of the compressed charge is ~ 3 m, the depth of the center of the charge is ~ 4 m, i.e. the charge enters the cavity completely (the distance from the end of the charge to the ice surface is ~ 2.5 m).

With a given time delay, the munition 3 is blown using the initiating device 5. As a result of the munition 3 blasting, a through funnel with a diameter (in this example) of 14–20 m through the water is formed. In this case, the ice thickness can reach 5–8 m.

With a distance between the points of incidence of shells of 15-20 m as a result of the discharge of 78 ammunition from one Il-76 aircraft, for example, a continuous channel 1000-1600 m long is formed in an ice jam.

It should be noted that the proposed method can be used to quickly create channels in the ground, for example, fire-fighting or to set the direction of water flows during floods.

With a loaded PS weight of 2 ~ 1000 kg (in this example), the explosive fraction is ~ 60% of the equipment loaded on board an aircraft designed to destroy ice or soil cover.

Thus, the proposed method in comparison with the prototype allows to increase by 2-6 times the mass of explosives in the equipment loaded on board the aircraft, designed to destroy the ice or soil cover, and, accordingly, the effectiveness of the destruction of the ice or soil cover.

Claims (1)

A method of destroying ice or soil cover, including placing ammunition containers connected to parachute systems (PS) on an aircraft, delivering them to a specified location, dumping, turning the ammunition relative to its attachment points to the containers, separating the ammunition from the containers and undermining the ammunition, characterized in that, as ammunition, the elongated flexible explosive charges collected in stacking are used with initiating devices with a given delay time, each of which is connected to the pron catheters, and another one with a stabilizing parachute, connected, in turn, by a discontinuous connection with the container, and after the PS is dropped at a given height, the flexible explosive charges are deployed into straight position with the prongs down, at the same time they break their connection with the containers, remotely cocking the initiating devices and the opening of the stabilizing parachutes of each of the ammunition, when the ammunition reaches the ice or ground cover, the penetrator is introduced into this cover and the ammunition is blown up using initiating devices with a given time delay.

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