RU139608U1 - CAST CHARGED IN THE POLYMER CASE - Google Patents

Abstract

1. The charge is molded in a polymer case for industrial blasting, containing the main explosive material, a socket connected to the bottom of the housing, on which there is an eyelet with a hole for securing the charge, an opening on the housing for passing the explosive line, which is located on the opposite side from the bottom of the housing, and a cover immersed in a housing having threads on both sides, each of which is intended for screwing the charges together, characterized in that the charge is additionally provided with an insert that contains hexogen or PETN, highly susceptible to shock, in an amount of 40 ... 65 wt.% mixed with molten TNT up to 100 wt.% and immersed in the main explosive material with less sensitivity to impact than RDX or PETN, molten TNT or cast mixture TNT with polydisperse granulotol with a diameter of not more than 16 mm, and the upper end of the liner is immersed in the main explosive material to a depth of 40 mm. 2. The charge according to claim 1, characterized in that the mixture of cast trotyl with polydisperse granulotol contains granulotol 10 ... 50 wt.%. 3. The charge according to claim 1, characterized in that the shell thickness is 1.1 ... 1.5 mm, the diameter of the hole for the passage of the explosive line is 8 ... 10 mm. 4. The charge according to claim 1, characterized in that the eyelet for attaching the charge has an opening with a diameter of 5 ... 7 mm. 5. The charge according to claim 1, characterized in that the nest has a diameter of 8 ... 9.5 mm and a depth in the liner of 30 ... 70 mm, and the lid has an opening matching the opening of the nest.

Description

The utility model relates to charges molded in a polymer case for industrial blasting, including those intended for use in seismic and other geophysical works, at temperatures from minus 50 ° C to plus 50 ° C. Charges can be used for blasting when initiated from electric detonators such as ED-8, EMF, EDPR, EDKZ and other explosive devices, similar in initiating ability, permitted by the Russian Technical Supervision Authority.

Known pressed waterproofing TNT blocks (charges) with a central channel [OST 84-1367-76], used as explosive materials (VM) for seismic and other types of geophysical work on the earth's surface, as well as intermediate detonators when conducting open explosive works of mountain and non-mountain nature.

Known TNT-RDX checker TGF-850E, containing a through channel and a nest, the inlet openings of which are connected by a recess [Certificate for utility model No. 3642 of 12/27/95].

To increase the scope of application, the TGF-850P checker-detonator is known, containing a through channel and a socket, the inlet openings of which are connected by a recess, made by pouring a mixed explosive material into a shell made of a polymeric material, having edges rounded inside, extending over the end parts of the product and two annular protrusions on a cylindrical surface [Certificate for utility model No. 12238 of 06/03/99].

The closest utility model (prototype) of the same purpose to the claimed utility model in terms of features is a cast charge in a polymer case for industrial blasting, containing explosive material having a socket, and including a case with a bottom, on which there is an eyelet with a hole for attaching a charge, and an opening on the housing for the passage of the explosive line, which is located on the opposite side from the bottom of the housing, and a cover immersed in the housing, the housing on both sides provided with threads with a pitch of ohm 6 mm and the number of turns from 4 to 7 each for screwing charges with each other to obtain the required total mass of explosive material.

On the bottom side, the body is equipped with a metric external thread with a radius of rounding of the protrusion of 0.6 mm and a radius of rounding of the groove of 0.8 mm, and the opposite side of the body is equipped with a metric internal thread with a radius of rounding of the groove of 1.5 mm and a radius of rounding of the protrusion of 0.3 mm.

The thickness of the casing is 1.1 ... 1.4 mm, the diameter of the hole for the passage of the explosive line is 8 ... 9 mm.

The eyelet for attaching the charge has a hole with a diameter of 5 ... 6 mm.

The socket has a diameter of 8 ... 9.5 mm, a depth of 70 mm, and the lid has a hole matching the hole of the socket.

The charge contains hexolite as explosive material, while the mixture contains hexogen in an amount of 45 ... 75 wt.%, The rest is trotyl.

As an explosive material, a known composition is used [Utility Model Patent No. 129622 of 11/19/2012].

A significant disadvantage of the prototype is its danger of production and use, as it contains a large volume (up to 75 wt.%) Highly sensitive to the impact of explosive RDX. Sensitivity to shock (cargo weighing 10 kg, drop height 25 cm) of RDX is 80% [Orlova E.Yu. Chemistry and technology of blasting explosives. - L .: "Chemistry", 1981, p. 237, last paragraph].

The technical task of this proposal is to create a charge that reduces the risk of its production and use.

In the proposed utility model, the charge is molded in a polymer case for industrial blasting, containing the main explosive material, a socket connected to the bottom of the housing, on which there is an eyelet with a hole for securing the charge, an opening on the housing for passing the explosive line, which is located on the opposite side from the bottom case, and the cover, immersed in the case, having on both sides of the thread, each of which is designed to screw charges with each other, is additionally equipped with an insert that contains highly sensitive to shock explosive substance RDX or TEN in an amount of 40 ... 65 wt.% mixed with molten TNT up to 100 wt.% and immersed in the main explosive material with less sensitivity to impact than RDX or TEN, molten TNT or a mixture of molten TNT with polydisperse granulotol with a diameter of not more than 16 mm, and the upper end of the liner is immersed in the main explosive material to a depth of 40 mm.

A mixture of cast TNT with polydisperse granulotol contains granulotol 10 ... 50 wt.%.

The thickness of the casing is 1.1 ... 1.5 mm, the diameter of the hole for the passage of the explosive line is 8 ... 10 mm.

The eyelet for attaching the charge has a hole with a diameter of 5 ... 7 mm.

The socket has a diameter of 8 ... 9.5 mm and a depth of 30 ... 70 mm in the liner, and the lid has a hole matching the hole of the socket.

The liner, which contains a highly sensitive to impact explosive RDX or TEN in an amount of 65 wt.% Less than the amount of highly sensitive explosive in the prototype is 75-65 = 10 wt.%, While the liner is immersed in the main explosive material with less sensitivity to impact than hexogen or TEN, molten trotyl or a mixture of molten trotyl with polydisperse granulotol with a diameter of not more than 16 mm, and the upper end of the liner is immersed in the main explosive material to a depth of 40 mm, which reduces the risk production of the proposed charge and its application.

The danger of producing the proposed charge and its use is reduced, since the main explosive material does not contain a highly sensitive to impact explosive RDX or TEN. Sensitivity to shock (cargo weighing 10 kg, drop height 25 cm) of TNT is 4 ... 8% [Orlova E.Yu. Chemistry and technology of blasting explosives. - L .: "Chemistry", 1981, p. 94, first paragraph]. Sensitivity to shock of TNT is less than sensitivity to shock of RDX more than 80/8 = 10 times. TEN when a load of 2 kg in weight falls from a height of 17 cm detonates almost without fail [Orlova E.Yu. Chemistry and technology of blasting explosives. - L .: "Chemistry", 1981, p. 282, last paragraph].

Granulotol with a diameter of more than 16 mm complicates the uniformity of the filling of the charge body with explosive material, causes the formation of air shells, which can lead to incomplete detonation of charges.

If the depth of the upper end face is more than 40 mm, the probability of the initiation of the insert from the detonator decreases.

When the amount of RDX or TEN is less than 40 wt.%, The explosion energy of the liner is significantly reduced, and - with more than 65 wt.%, The risk of its production increases.

The content of granulotol in the mixture of less than 10 wt.% Does not significantly affect the solidification time of the mixture, and at - more than 50 wt.% Complicates the process of filling the charge housing, leading to the formation of shells.

The thickness of the body less than 1.1 mm does not provide strength characteristics, and more than 1.5 mm leads to an additional consumption of polymer material. The diameter of the hole for the passage of the blast line less than 8 mm does not allow the electric detonator to pass through it, and more than 10 mm reduces the stiffness of the product at its location.

The diameter of the eyelet hole of less than 5 mm does not allow the equipment used to mount the charge, and more than 7 mm reduces the fastening strength.

A hole diameter of less than 8 mm does not allow an electric detonator to be placed inside it, and a diameter of more than 9.5 mm cannot be used, since there will be a large air gap between the electric detonator and the surface of the explosive material; the depth of the socket is less than 30 mm reduces the reliability of the transmission of detonation from the electric detonator to the liner, and at - more than 70 mm complicates the production of liners.

The proposed utility model is illustrated in the figure. The charge cast in the polymer case 1 for industrial blasting contains the main explosive material 2, socket 3, conjugated with the case 1 bottom 4, on which is located the eyelet 5 with a hole with a diameter of 5 ... 7 mm for securing the charge, a hole with a diameter of 8 ... 10 mm for explosive the line, which is located on the opposite side from the bottom 4 of the housing 1, and the cover 6, immersed in the housing 1, having threads 7 and 8 on both sides, each of which is designed to screw charges with each other, while the charge is additionally equipped with an insert 9 , which contains highly sensitive to the impact of explosive RDX or TEN in an amount of 40 ... 65 wt.% mixed with TNT up to 100 wt.% and immersed in the main explosive material 2 with less sensitivity to shock than RDX or TEN, molten TNT or a mixture cast TNT with a polydisperse granulotol 10 with a diameter of not more than 16 mm, and the upper end of the liner 9 is immersed in the main explosive material 2 to a depth of 40 mm.

A mixture of cast TNT with polydisperse granulotol 10 contains granulotol 10 ... 50 wt.%.

The thickness of the housing 1 is 1.1 ... 1.5 mm, the diameter of the hole for the passage of the explosive line is 8 ... 10 mm.

The ear 5 for fastening the charge has a hole with a diameter of 5 ... 7 mm

Socket 3 has a diameter of 8 ... 9.5 mm, a depth of 30 ... 70 mm, and the lid 6 has a hole matching the hole of the socket 3.

A comparison of the number of highly sensitive to impact explosives of the prototype and the charge of molten in a polymer case (proposed utility model) are shown in the following table.

Table. Comparison of the number of highly sensitive explosives in the prototype and the proposed model The name of indicators Values for models Prototype Proposed model 1 Model Sizes, mm: - height 270 270 270 270 270 270 - diameter 68 68 68 68 68 68 - socket diameter 8.0-9.5 8.0-9.5 8.0-9.5 - nest depth 70 70 70 70 70 70 - insertion depth - - 0 40 0 40 2 Number of turns four 7 four 7 four 7 3 Mass of explosive material, g 1000 1000 1000 1000 1000 1000 4 Mass fraction of components in the main explosive material,% - hexogen 45 75 - - - molten TNT 55 25 one hundred fifty one hundred fifty - granulotol fifty fifty (diameter no more 16 mm) 5 Mass fraction of components in the liner,% - hexogen - - 40 65 -TEN - - 40 65 - TNT - - 60 35 60 35 6 The mass of explosive material in the liner, g 75 75 75 75 7 Amount of highly sensitive explosive, g - hexogen 450 750 thirty 49 thirty 49 - TEN - - - - - -

If the explosive material in the prototype has a mass of 1000 g, and the content of highly sensitive RDX varies in the range of 45 ... 75 wt.%, Then in this case the amount of RDX in the charge varies in the range of 450 ... 750 g.

In the proposed model, the main explosive material lacks a highly sensitive explosive. Highly sensitive explosive is contained only in the insert. If the mass of the liner is equal to 75 g, and the content of highly sensitive RDX or TEN varies between 40 ... 65 wt.%, Then in the proposed utility model, the amount of RDX or TEN varies from (40 × 75) / 100 = 30 g to ( 65 × 75) / 100 = 49 g.

As can be seen from the table in the prototype, the amount of highly sensitive explosive is contained in the range of 450 ... 750 g, and in the proposed utility model in the range of 30 ... 49 g.

Therefore, with the highest amount of highly sensitive explosive in the proposed model equal to 49 g, the amount of highly sensitive explosive compared with the prototype is reduced by no less than 450/49 = 9 times, which solves the technical task of this proposal - to reduce the risk of production and application of a molten charge in a polymer case.

Claims (5)

1. The charge is molded in a polymer case for industrial blasting, containing the main explosive material, a socket connected to the bottom of the housing, on which there is an eyelet with a hole for securing the charge, an opening on the housing for passing the explosive line, which is located on the opposite side from the bottom of the housing, and a cover immersed in a housing having threads on both sides, each of which is intended for screwing the charges together, characterized in that the charge is additionally provided with an insert that contains hexogen or PETN, highly susceptible to shock, in an amount of 40 ... 65 wt.% mixed with molten TNT up to 100 wt.% and immersed in the main explosive material with less sensitivity to impact than RDX or PETN, molten TNT or cast mixture TNT with polydisperse granulotol with a diameter of not more than 16 mm, and the upper end of the liner is immersed in the main explosive material to a depth of 40 mm. 2. The charge according to claim 1, characterized in that the mixture of cast TNT with polydisperse granulotol contains granulotol 10 ... 50 wt.%. 3. The charge according to claim 1, characterized in that the thickness of the casing is 1.1 ... 1.5 mm, the diameter of the hole for the passage of the explosive line is 8 ... 10 mm. 4. The charge according to claim 1, characterized in that the eyelet for attaching the charge has an opening with a diameter of 5 ... 7 mm. 5. The charge according to claim 1, characterized in that the socket has a diameter of 8 ... 9.5 mm and a depth of 30 ... 70 mm in the liner, and the lid has a hole matching the hole of the socket.

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