RU193233U1 - DETECTING BALLISTIC UNIT CHARGE - Google Patents

Abstract

The utility model relates to products based on utilizable checkers of ballistic rocket solid fuel obtained by cutting and stockpiling ammunition taken from armament or obtained from reserve storage. The technical tasks aimed at solving the proposed utility model are to increase safety when placing a detonating ballistic unitary charge into charging cavity, increasing safety during transportation of detonating ballistic unitary charges and their use due to To increase their water resistance and the strength of fixing the liner in the checker. The indicated technical problems are solved by the fact that in a detonating ballistic unitary charge, including a checker made of explosive material, insensitive to primary means of initiation, for example, from a composition of ballistic rocket solid fuel, ballistic gunpowder and blasting explosive taken in ratios from 0 to 100 wt. %, in which there is an insert made of explosives that are sensitive to primary means of initiation. At least one blind hole (socket) is made in the insert for placement of primary initiating means (detonator capsule), while the insert is fixed in the checker by a fixing element, which is made in the form of a layer of ballistic adhesive between the checker and the insert, which is a mixture of ballistic missile shavings solid fuel with acetone. To enhance the bonding effect, a layer of ballistic glue may be provided with a gauze pad. The optimal viscosity range for ballistic glue is 6.2-9.5 Pass, with a lower viscosity, the glue flows out of the charge, and with a larger viscosity it fills the gap between the checker and the liner unevenly, which in both cases reduces the reliability of the complete detonation of the charge and degrades the technical characteristics of the charge and safety level of handling it. The liner may be made of tetrode or gelpore.

Description

Detonating ballistic unitary charge

The utility model relates to products based on disposable drafts of ballistic solid rocket fuel obtained by cutting and stockpiling ammunition removed from service or obtained from reserve storage. According to the conditions of use, the proposed detonating ballistic unitary charge relates to industrial explosives of a special class and is intended for use as:

- explosive charge during seismic surveys;

- initiator of borehole charges of industrial explosives, in open-cast mining, using electric and non-electric initiation systems;

- initiator of borehole and borehole charges of industrial explosives in underground mining in faces that are not dangerous for gas or dust, including when using electric and non-electric initiation systems;

- explosive charge for the destruction of oversized pieces of rock, metal, concrete, reinforced concrete structures, ice and other types of special operations.

A number of detonating ballistic unitary charges admitted for continuous use are known, which include checkers of explosives that are not sensitive to primary means of initiation, and an insert of explosives that are sensitive to primary means of initiation.

An example of such a charge is the detonator bomb according to the patent for the invention of the Russian Federation No. 2321821 (IPC 2006.01 F42B 3/10; publication date 10.09.2007). The specified detonator block contains an explosive charge in a cylindrical shell and an insert placed inside it from the side of one of the ends. The charge is made of a blasting explosive (molten TNT, a mixture of TNT-RDX, powdered, gel or emulsion industrial explosives) and has through channels for accommodating a detonating cord. The liner is made of blasting explosive sensitive to primary

means of initiation (pentolite, a mixture of TNT-RDX) and has a deaf socket for placement of the detonator capsule. A disadvantage of the known checker-detonator is the low water resistance, especially in running water. Another disadvantage is the insufficient reliability of the fastening of its individual parts, which is carried out by filling the gaps between them by pouring glue in the form of a melt of blasting explosive or filling powdered explosive. For the same reason, insufficient reliability is also manifested in the transmission of detonation from the insert to the charge of the checker.

The prototype of the proposed utility model is a detonating ballistic unitary charge according to the patent for the invention of the Russian Federation No. 2420502 (IPC 2006.01 C06C 7/00; publication date 10.06.2011). The specified charge includes a checker made of explosive that is insensitive to primary means of initiation, for example, from a composition of ballistic solid rocket fuel, ballistic powder and blasting explosive taken in ratios from 0 to 100 wt. %, in which at least one through channel is made parallel to the longitudinal axis, and a liner made of explosive sensitive to primary means of initiation, in which at least one blind hole (nest) is made to accommodate primary means of initiation. The liner and checker are fastened with a fixing element. The described charge has an increased danger when loading, since a checker containing ballistic gunpowder in its composition can self-ignite during loading due to its direct friction against the walls of the charging cavity. Another disadvantage of the prototype is its lack of reliability during transportation and safety during use, since the liner fixed in the checker with a fixing element made in the form of a ring of explosive forming the liner can fall out of the checker, representing both an immediate danger due to its increased sensitivity and danger indirectly through the possibility of failures during blasting operations.

The technical problems to which the proposed utility model is directed is to increase safety when placing a detonating ballistic unitary charge in the charging cavity in comparison with the analogue by eliminating direct friction of the checker against the walls of the charging cavity, as well as increasing safety during transportation of detonating ballistic unitary charges and their use by increasing their water resistance and fastening strength

insert in the checker.

These technical problems are solved by the fact that in a detonating ballistic unitary charge, including a bomb made of an explosive that is insensitive to primary means of initiation, for example, from a composition of ballistic solid rocket fuel, ballistic powder and blasting explosive taken in ratios from 0 to 100 wt. %, in which at least one through channel is made along the longitudinal axis, and a liner made of explosive material sensitive to primary means of initiation, in which at least one blind hole (socket) is made to accommodate primary initiating means, wherein fixed in the checker with a fixing element, and the fixing element is made in the form of a layer of ballistic adhesive between the checker and the liner, which is a mixture of ballistic rocket solid fuel chips and acetone. To enhance the bonding effect, a layer of ballistic glue may be provided with a gauze pad. The optimal viscosity range for ballistic glue is 6.2–9.5 Pa * sec, with a lower viscosity, the adhesive flows out of the charge, and with a larger viscosity it fills the gap between the checker and the liner unevenly, which in both cases reduces the reliability of the complete detonation of the charge and degrades the technical characteristics charge and safety level of handling it. The liner may be made of tetrode, gelpore, plastic explosives. To prevent fluid explosives from flowing into the blind holes or foreign objects from entering the blind holes, extractable templates can be placed under the detonator caps.

The essence of the proposed utility model is illustrated by drawings, which show:

FIG. 1 - detonating ballistic unitary charge longitudinal section;

FIG. 2 - detonating ballistic unitary charge top view.

Specifically, the proposed utility model can be performed as follows. The detonating ballistic unitary charge consists of a checker 1 (Fig. 1, 2) and a liner 2. A checker 1 is made of an explosive material insensitive to primary means of initiation, for example, a composition of ballistic rocket solid fuel, ballistic artillery powder and blasting explosive taken in any ratio from 0 to 100 wt. % The liner 2 is made of explosive sensitive to primary means of initiation.

As ballistic solid rocket fuel, BRTT drafts of RSI or PCT grades according to OST V 84-439 or TU 7276-019-56466532-2005 with through axial channel 3 can be used, as ballistic artillery gunpowder - NTD-2, NTD-3 and others according to OST V 84-1943-81, as a blasting explosive - TNT grade A or B according to GOST 4117-78, drafts of ballistic solid rocket fuel according to OST V 84-439 or TU 7276-019-56466532-2005. As explosives sensitive to primary means of initiation, tetrol can be used according to TU 07511819-159-2005, having a water resistance of 15-20% higher than pentolite or BRTT drafts of PCT grade according to OST 84-439 (TU 7276-019-56466532 -2005), gelpore according to TU 7276-001-11327508-2012, or plastic explosives like PVV-7 according to OST V 84-1278.

The main characteristics of explosives used in the manufacture of the proposed detonating ballistic unitary charges are shown in tables 1-5.

The checker 1 may have a cylindrical shape, the shape of the sector of the cylinder or a shape close to them. The shape of the checker does not affect the method and scope of the charges and can vary to achieve the specified mass-dimensional characteristics. The diameter of the checkers depending on the characteristics of the feedstock and the requirements of consumers can vary between 80-190 mm, length - 170-1400 mm, weight - 1.4-12 kg.

In the insert 2, on the outer end side, one or several blind holes (sockets) 4 are made for placement of primary means of initiation in them, for example, electric detonators ED-8, EMF-1 or a detonator caps of non-electric explosive systems such as "Nonel", SINV, " Edilin "," Korshun-M "," Excel "and others. The diameter of the liners can be in the range of 40-55 mm, length - 100-150 mm.

The liner 2 is fixed in the checker 1 by means of a fixing element in the form of a layer 5 of ballistic glue made from a mixture of ballistic rocket solid fuel chips and acetone. Fixing the liner in the checker can be made on other brands of adhesives that are not aggressive to explosives contained in the charge, for example, 88 CA adhesive according to TU 38105-1760. The initial viscosity of the glue should be in the range of 6.2-9.5 Pa * sec, otherwise, if the viscosity is insufficient, the glue will not be kept in the gap between the checker and the liner, and if the viscosity is excessive, it will not be able to uniformly fill the entire volume of the specified gap. For greater reliability of fixing the liner in the checker in the gap between the checker and the liner, a gauze gasket is placed before filling it with glue, as a result of which, after the glue has hardened, an reinforced reinforcing element is formed in the gap between the checker and the liner. Formed charge except deaf and through channels is covered by a heat-shrinkable housing 6.

In the case of the manufacture of a liner of easily deformable explosives (gel pores, plastic explosives) in blind holes 4 in order to prevent leakage of explosives into them for the period of storage and transportation

templates can be installed under the detonator capsules that are removed during the assembly period when the well is charged with a detonating ballistic unitary charge.

As tests of the samples of the proposed detonating ballistic unitary charges showed, they are completely detonated when they are initiated by industrial primary means of initiation (electric detonators ED-8, EMF-1 or caps-detonators of non-electric explosive systems such as "Nonel", SINV, "Edilin", "Korshun- M "," Excel ") both in dry form and after exposure to water for 30 days or more at a pressure of at least 0.02 MPa.

Claims (7)

1. A detonating ballistic unitary charge, including a checker made of an explosive that is insensitive to primary means of initiation, for example, from a composition of ballistic solid rocket fuel, ballistic powder and blasting explosive taken in ratios from 0 to 100 wt. %, in which at least one through channel is made along the longitudinal axis, and a liner made of explosive sensitive to primary means of initiation, in which at least one blind hole (nest) is made for receiving primary initiating means, for example, a capsule detonator, wherein the liner is fixed in the checker with a fixing element, characterized in that the fixing element is made in the form of a layer of glue between the checker and the insert with an initial viscosity of 6.2-9.5 Pa · s. 2. A detonating ballistic unitary charge according to claim 1, characterized in that the interlayer between the checker and the insert is made of ballistic glue, which is a mixture of ballistic rocket solid fuel chips and acetone. 3. The detonating ballistic unitary charge according to claim 1, characterized in that the glue layer between the checker and the liner is provided with a gauze pad. 4. Detonating ballistic unitary charge according to claim 1, characterized in that the liner consists of tetrol. 5. Detonating ballistic unitary charge according to claim 1, characterized in that the liner consists of a plastic explosive. 6. The detonating ballistic unitary charge according to claim 1, characterized in that the insert consists of gelpore explosives placed in a polymer shell with a through channel and with two blind holes (nests) for the detonator capsule. 7. The detonating ballistic unitary charge according to claim 6, characterized in that the removable templates for detonator capsules are placed in blind holes (sockets).

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