RU2084818C1 - Quasar-method of dismantling of metalworks (variants) - Google Patents

Abstract

FIELD: dismantling of metalworks. SUBSTANCE: extended charges are placed on the external surface of the object. Additional explosive charges are placed on the internal surface. Blasters of the external and internal charges are installed in one or several extended charges, for instance at their ends. The charges are blasted. According to another variant, extended charges are placed on the internal surface of the object between the bearing, partition or reinforcing members of the object in coaxial alignment with one another, the charge ends adjoining the surface of these members. Blasters of all charges are installed in one or several of them. EFFECT: enhanced efficiency. 18 cl, 5 dwg

Description

 The invention relates to the field of blasting operations for cutting metal structures consisting of a hull, sheathing, shell or cladding, supporting, reinforcing, blocking and / or ballast elements and component equipment, for example, old ships, submarines, armored vehicles and aircraft.

 Currently, in connection with the reduction of armaments, the need has arisen for the creation of an effective technology for the disposal of obsolete weapons and military equipment.

 A known method of cutting military equipment, including the placement on the surface of a structure of explosive charges (for example, on an engine, near a tower and on a tank’s tracks, etc.) and their detonation (Morin A.I. et al. Subversive business. M. Military Publishing , 1946, p. 171, Fig. 151).

 As a result of the explosion, the structure collapses into severely deformed fragments and fragments scattered over a large area. In addition, the use of this method is associated with increased danger in connection with the use of a large amount of explosive and with a large expansion area of uncontrolled mass fragments.

 To some extent, these shortcomings were eliminated in the method of scraping ships, aircraft, armored vehicles, etc. adopted as a prototype, and including the placement on the surface of an object of elongated cumulative charges, the installation of explosive devices and detonation of charges (Borodulin A. Explosions in cemeteries. Youth technique, N 12, 1991).

 As a result of undermining the system of charges on the surface of the object, its body is divided into separate fragments, the configuration of which is determined by the layout of the charges.

 However, this method also has certain disadvantages: high consumption of explosives and explosives (initiation), increased danger, lack of effectiveness.

 The aim of the invention is to increase the efficiency of cutting metal structures while reducing hazard, cost and reducing time.

 This goal is achieved by the fact that in the method of cutting metal structures, consisting of a body, sheathing, shell or cladding, bearing, reinforcing, blocking and / or ballast elements and component equipment, including the placement of elongated charges on the surface of the structure, the installation of explosive devices and the detonation of charges , elongated charges are installed on the outer surface of the body, casing, shell or cladding, additional explosive charges are placed on the inner surface, and the means blasting of external and internal charges is placed in one or more elongated charges, for example, at their ends.

 It is also possible to place charges on the inner surface of the housing, sheathing, shell or lining between the bearing, reinforcing or partitioning elements of the structure being cut, aligned with each other with their ends resting on the surfaces of these elements, and the means of blasting all the charges are installed in one or more of them. Moreover, between the ends of the charges and the surfaces of these structural elements, technological gaps may be present.

 Additionally, overhead concentrated charges can be installed on the inner surface in the cross section of the intended cut at the locations of the bearing, reinforcing or blocking elements.

 In addition, when cutting the structure at the place of its strengthening, for example, the place of joining with the overlap of the cladding sheets or the place of thickening of the case, it is possible to use two elongated charges mounted on both sides of the barrier with a displacement relative to each other not exceeding three charge diameters.

 In this case, all or some of the charges can be made cumulative.

 Additionally, high-explosive charges can be installed in the airspace of the compartments. After cutting the case, sheathing or shell, the following operations can be carried out.

 When separating components of equipment, for example, an engine, on / under mounting nodes or parts, for example, bolts, overhead concentrated charges are installed.

 When separating / cutting a long part, for example, a jig shaft or a gun barrel, an elongated cumulative charge is placed on it with coverage, and in the immediate vicinity of the last consignment note a concentrated charge, for example, in an elastic shell.

 To release the hull of the submarine from the cemented cast-iron ballast on each of the ballast sections in the plane perpendicular to the longitudinal axis of the boat, an elongated charge or several elongated charges are placed parallel to each other.

 At the same time, when installing charges, first place an empty shell or charge case, install blasting equipment, install an electric explosion network within the danger zone, and then fill the shell with liquid explosive.

 The placement of additional concentrated charges on the inner surface of the structure in the cut section and at the locations of the reinforcing, blocking, or supporting elements eliminates the cutting operation of these elements, which reduces the cutting time and the amount of explosive used due to increased deformation of the elements due to the effects of the explosion and elongated and concentrated charges .

 The placement of elongated charges on both sides of the shared surface with an offset not exceeding 3.0 charge diameters will increase the separation efficiency while reducing the size of the charges used.

 Certain difficulties are the placement of elongated charges on the inner surface of the body, shell, sheathing or cladding, since it was necessary to mechanically make holes in the partitions (load-bearing, reinforcing or blocking elements) to install these charges, which complicated and delayed the cutting process.

 The installation of individual elongated charges close between the partitions coaxially to each other using explosive means placed in one or more of the charges allows not only to exclude mechanical preparatory work (since there is no need for holes in the partitions to accommodate charges), but also to increase productivity.

 Various used containers, for example, from dairy products or juices, or ordinary plastic bags, can be used as shells for the concentrated charges used, which significantly reduces the cost and simplifies the process of cutting metal structures and separating component parts from it.

 The installation of additional high-explosive charges compartments in the airspace will make it possible to effectively “break up” the structure being cut into predefined fragments, and, if necessary, to ensure “scattering” of fragments within the established area.

 Placing empty shells or shells of charges and explosion-proof (not containing any explosive substance or sensitive composition) explosive devices and installing an electric explosion network within the danger zone before filling these shells or shells with liquid explosive will increase the safety of the explosive cutting process. Safety increases particularly sharply when using explosives, which are a mixture of separately explosive safe components, for example, an oxidizing agent and fuel [for example, nitrogen tetroxide or hydrogen peroxide, and various hydrocarbon fuels, including kerosene or diesel, can be used as an oxidizing agent fuel] during separation of remote supply of components that are mixed only in the shell or charge housing, the need for the presence of a person (fuse) on the object is eliminated those with explosive charges placed on it.

 In FIG. 1 shows an elongated charge 3, placed on the outer surface of the skin 1, additional concentrated charges 5, installed from the supporting elements 2 of the shared structure, and a means of exploding all the charges 4.

 In FIG. 2 shows elongated charges 3 placed on the inner surface of the skin 1 between the supporting elements 2, and two means of blasting all the charges 4.

 In FIG. 3 shows the installation of two elongated charges 3 on the shell 1 of the ballast section, to which ballast elements 2 are attached from the inside with a binder (cement) 6.

 In FIG. 4 shows a cross section of two cumulative charges 3 placed on both sides of a shared barrier with a relative displacement equal to 2 charge diameters.

 In FIG. 5 shows an elongated cumulative charge 3, covering the cuttable shaft 7, and an additional charge 5 in an elastic shell, as well as explosive means 4.

 The claimed method was used in the pilot cutting for scrap of decommissioned vessels at the Ship Separation Base of the Northern Fleet.

Claims (18)

 1. The method of cutting metal structures, consisting of a body, sheathing, shell or lining, bearing, reinforcing, blocking and / or ballast elements and component equipment, including the placement on the surface of the structure to be cut elongated explosive charges, the installation of explosive devices and the detonation of charges, characterized the fact that the elongated charges are placed on the outer surface of the housing, skin, shell or cladding, on the inner surface are additional charges of explosives substances, and means of exploding external and internal charges are placed in one or more elongated charges, for example at their ends.  2. The method according to p. 1, characterized in that as the charges placed on the inner surface, concentrated overhead charges are used, which are installed in the section of the intended cut at the locations of the bearing, pegging or reinforcing elements.  3. The method according to p. 1, characterized in that when dividing the structure at the place of its strengthening, for example, the place of joining with the overlap of the cladding sheets or the place of thickening of the body, two elongated charges are used, installed on both sides of the barrier with an offset relative to each other not exceeding 3.0 charge diameters.  4. The method according to claim 1, characterized in that when releasing the hull of the submarine from cemented cast-iron ballast on each of the ballast sections in the plane perpendicular to the longitudinal axis of the boat, an elongated charge or several elongated charges are placed parallel to each other.  5. The method according to any one of paragraphs. 1 to 4, characterized in that all or some of the charges are made cumulative.  6. The method according to p. 1, characterized in that it additionally place high-explosive charges in the airspace of the compartments of the structure being cut.  7. The method according to p. 1, characterized in that when separating the component equipment, such as an engine, on / under the mounting nodes or parts, such as bolts, install overhead concentrated charges.  8. The method according to p. 1, characterized in that when separating / cutting a long part, for example, an engine shaft, an elongated cumulative charge is placed on it with coverage, and in the immediate vicinity of the latter, a concentrated charge, for example, in an elastic shell.  9. The method according to any one of paragraphs. 1 to 8, characterized in that they first place empty shells or shells of charges, install the means of explosion, carry out the installation of an electric explosion network within the danger zone, and then fill the shells or shells with liquid explosive.  10. The method of cutting metal structures, consisting of a body, sheathing, shell or lining, bearing, reinforcing, blocking and / or ballast elements and component equipment, including the placement on the surface of the structure to be cut elongated explosive charges, the installation of explosive devices and the detonation of charges, characterized the fact that the charges are installed on the inner surface of the housing, shell, cladding or sheathing between the bearing, blocking or reinforcing structural elements of the coax but with each other and with the butt ends adhering to the surfaces of the bearing, blocking or reinforcing elements, and the means of blasting all the charges are installed in one or more of them.  11. The method according to p. 10, characterized in that it further installs overhead concentrated charges on the bearing, reinforcing or blocking elements.  12. The method according to p. 10, characterized in that when dividing the structure at the place of its strengthening, for example, the place of joining with the overlap of the cladding sheets or the place of thickening of the case, two elongated charges are used, installed on both sides of the barrier with an offset relative to each other not exceeding 3.0 charge diameters.  13. The method according to p. 10, characterized in that when releasing the hull of the submarine from the cemented cast-iron ballast on each of the ballast sections in the plane perpendicular to the longitudinal axis of the boat, an elongated charge or several elongated charges are placed parallel to each other.  14. The method according to any one of paragraphs. 10 13, characterized in that all or some of the charges are made cumulative.  15. The method according to p. 10, characterized in that it additionally place high-explosive charges in the airspace of the compartments of the structure being cut.  16. The method according to p. 10, characterized in that when separating the component equipment, such as an engine, on / under the mounting nodes or parts, such as bolts, install overhead concentrated charges.  17. The method according to p. 10, characterized in that when separating / cutting a long part, for example, an engine shaft, an elongated cumulative charge is placed on it with coverage, and in the immediate vicinity of the latter, a concentrated charge, for example, in an elastic shell.  18. The method according to any one of paragraphs. 10-17, characterized in that first empty shells or shells of charges are placed on the structure, explosive devices are installed, an electric explosion network is installed within the danger zone, and then shells or shells are filled with liquid explosive.

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