RU2790095C1 - Non-electrical means of initiation (options) - Google Patents

Abstract

FIELD: initiation.

SUBSTANCE: the invention relates to safe means of initiation, can be used as a small-sized, non-electrical means of initiation during blasting operations for civil purposes, such as construction, group detonation systems in the mining and oil and gas industries. In the first option the non-electric initiation means consists of a housing 1 made in the form of a cup with a variable wall thickness in cross section, the bottom of which contacts the output BB hitch 8, an intermediate hitch 7 is located between the output hitch 8 and the initiating hitch 6. The wave igniter element 4 is made in the form of a waveguide, equipped with an internal hollow element 5 and fixed in a part of the housing, with a smaller wall thickness in cross section, with an elastic dielectric nozzle 3. A dielectric gasket 2 is located between the end of the wave igniter element 4 and the initiating hitch 6. In the second option, the non-electric initiation means consists of a housing made in the form of an initiating part having a smaller wall thickness in the section where the wave igniter element is located, equipped with an internal hollow element and fixed with an elastic dielectric nozzle. In the lower part of the housing, made in the form of a cup, there is an output BB hitch bordering the bottom of the base, the initiating BB hitch and the intermediate BB hitch that are in contact with them.

EFFECT: ensuring explosion safety by eliminating the possibility of triggering from the discharge of static electricity.

10 cl, 2 dwg

Description

The invention relates to the field of safe means of initiation, can be used as a small-sized, non-electric means of initiation when carrying out blasting for civil purposes, such as construction, group detonation systems in the mining and oil and gas industries.

The main requirements for the means of initiation are safe handling and high reliability of operation. Various ways are used to meet these requirements. The most radical way to improve the safety of means of initiation is the exclusion of initiating explosives from their composition.

Known detonating device based on high explosive, described in the patent of the Russian Federation No. 2120101, IPC F42B 3/10, publ. 10/10/1998, containing a housing with a closed bottom, which houses the igniter element and an intermediate shell with initiating and initiated charges.

The disadvantages of this technical solution are:

- the complexity of the geometry of the intermediate shell;

- technological complexity of providing a higher density of the initiating charge;

- unreliability of operation.

An invention is also known under the name "blasting cap based on a blasting explosive", described in the patent of the Russian Federation No. 2413166, IPC F42B 3/10, publ. 02/27/2011, consisting of a body with placed in it the weights of the igniter element in contact with each other and the charge of the blasting explosive.

The main disadvantages of the device design are:

- the complexity of manufacturing and equipping the geometry of the intermediate shell;

- technological complexity of providing different density of the initiating charge;

- the complexity of building branching systems of a standard electric igniter.

The closest and selected as a prototype is the technical solution described in the RU patent for utility model No. 131865, IPC F42D 1/04, publ. 08/27/2013, under the name "Explosive initiation blasting cap", containing in a housing having a variable wall thickness in the section, coaxially installed initiator, in the form of a wave igniter element, an explosive charge (BB), made in the form of explosives, contacting together.

However, the described design has a number of disadvantages, which include:

- complexity in manufacturing;

- production of the case from composite and polymeric material;

- when activated from an electric igniter, it is possible to trigger from a discharge of static electricity.

The objective of the invention is to improve operational characteristics, namely, increase safety and explosion safety, ease and simplicity of installation, the possibility of conducting operational quality control, reliability, use in a wide temperature range, weight and size characteristics.

The technical result is that explosion safety is ensured:

- preservation of the integrity of the body of the device when the wave igniter element is triggered;

- increased safety during operation of the device by eliminating the possibility of triggering from a discharge of static electricity, electromagnetic interference, low specific content of the explosive composition in the wave igniter element, as well as the absence of initiating explosives;

- expanded operational capabilities due to ease of installation, the ability to conduct operational quality control of the device, the performance of non-electric means of initiation in a wide temperature range from minus 60 ° C to plus 70 ° C, low weight and size parameters.

The specified technical result according to the first variant is achieved by the fact that in a non-electric means of initiation, containing in a housing having a variable wall thickness in a section, coaxially installed initiator, in the form of a wave igniter element, an explosive charge (HE), made in the form of explosives, contacting with each other, according to the invention, the body is made in the form of a cup, the bottom of which is in contact with the outlet sample of explosives made of blasting explosives, while between the initiating sample of low density from the deflagrating explosive and the outlet sample of explosives there is an intermediate high-density sample made of deflagrating explosive, a wave igniter element is equipped with an internal hollow element made in the form of a tube, and is installed in a part of the body, with a smaller wall thickness in cross section, inside an elastic dielectric nozzle, made in the form of a sleeve, and is associated with the initiating attachment of the explosive through a dielectric gasket made in puck shape.

The specified technical result according to the second variant is achieved by the fact that in a non-electric means of initiation, containing in a housing having a variable wall thickness in a section, coaxially installed initiator, in the form of a wave igniter element, an explosive charge (HE), made in the form of explosives, contacting with each other, according to the invention, the body is made detachable, one part of which has a smaller wall thickness in cross section with a wave igniter element located in it, which is equipped with an internal hollow element made in the form of a tube and installed inside an elastic dielectric nozzle, which is made in the form of a sleeve , and is coupled with the initiating attachment of the explosive through a dielectric gasket made in the form of a washer, and the other detachable part of the body of the non-electric means of initiation is made in the form of a glass, the bottom of which contacts with the output attachment of the explosive, made of blasting explosive, while between the initiating attachment th low-density deflagrating explosive, and the output sample of explosives, there is an intermediate high-density sample made of deflagrating explosives, while the initiating sample is coupled to the wave igniter element through a dielectric gasket.

In addition, in order to ensure reliable fixation of the wave igniter element, the inner hollow element is made in the form of a metal tube.

In addition, in order to ensure reliable fixation of the wave igniter element, the inner hollow element is made in the form of a composite tube.

In addition, in order to ensure the safety and integrity of the wave ignition element, the elastic dielectric nozzle is made in the form of a polymer sleeve.

In addition, in order to ensure reliable fixation of the igniter element, it is fixed by crimping a part of the housing having a smaller wall thickness in cross section.

In addition, in order to ensure the convenience and safety of mounting and dismounting the device, the detachable parts of the housing are connected by means of a threaded connection.

In addition, in order to ensure the convenience and safety of mounting and dismounting the device, the detachable parts of the housing are connected by a bayonet connection.

In addition, in order to ensure the convenience and safety of installation and dismantling of the device, the detachable parts of the housing are connected by adhesive bonding.

In addition, in order to ensure the convenience and safety of mounting and dismounting of the device, the detachable parts of the body are connected by welding.

The achieved technical result according to the second variant of the non-electric means of initiation is the same as in the implementation of the non-electric means of initiation according to the first variant.

The analysis of the level of technology carried out by the applicant, including the search for patent and scientific and technical sources of information and the identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find an analogue characterized by features identical to all essential features of the claimed invention, and the definition from the list identified analogues of the prototype, as the closest analogue in terms of the set of features, made it possible to identify a set of distinctive features in the claimed object that are significant in relation to the technical result perceived by the applicant and set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty" under the current legislation.

To verify the compliance of the claimed invention with the condition of inventive step, the applicant conducted an additional search for known solutions in order to identify features that coincide with the features of the claimed invention that are distinctive from the prototype, the results of which show that the claimed invention does not follow for a specialist explicitly from the known technical level of technology.

Therefore, the claimed invention meets the requirement of "inventive step".

The invention is illustrated in the drawings, where

- in Fig. 1 shows a general view of the device according to the first variant;

- in Fig. 2 shows a general view of the device according to the second variant.

The following items are included in the drawings:

1 - body;

2 - dielectric gasket;

3 - elastic dielectric nozzle;

4 - wave ignition element;

5 - internal hollow element;

6 - initiating sample;

7 - intermediate hitch;

8 - output hinge.

9 - part of the body, having a smaller thickness in section.

The non-electric means of initiation according to the first variant (Fig. 1) consists of a body 1 made in the form of a glass with a variable wall thickness in the section, the bottom of which is in contact with the output attachment of explosives from blasting explosives 8, between the output attachment of explosives 8 and the initiating attachment of low density from deflagrating explosive 6, there is an intermediate high-density charge of deflagrating explosive 7. A wave igniter element 4 and equipped with an internal hollow element 5 in the form of a metal or composite tube. Wave ignition element 4 is installed inside an elastic dielectric nozzle 3, made in the form of a sleeve made of polymeric material, for example, low-pressure polyethylene, located in a part of the body with a smaller wall thickness in cross section, and fixed by crimping this part of the body 1. Between the end face of the wave ignition element 4 and initiating hitch BB 6 is a dielectric spacer 2, made in the form of a washer.

The non-electric means of initiation according to the second variant (Fig. 2) consists of a housing 1 having a variable wall thickness in cross section and made detachable: one part of which has a smaller wall thickness in cross section 9 with a wave igniter element 4 located in it, which is equipped with an internal hollow element 5, made in the form of a tube and installed inside the elastic dielectric nozzle 3, which is made in the form of a sleeve, and is associated with the initiating attachment of the explosive 6 through the dielectric gasket 2, made in the form of a washer, and the other detachable part of the body 1 of the non-electric means of initiation is made in the form glass, the bottom of which is in contact with the output sample of explosives 8, made of blasting explosives, while between the initiating sample of low density of deflagrating explosives 6, and the output sample of explosives 8 is an intermediate high-density sample, made of deflagrating explosives 7, while the initiating sample 8 associated with wave ignition l element 4 through a dielectric gasket 2. Detachable parts of the body 1 and 9 can be connected by threaded, bayonet, adhesive connection, welding, etc.

The operation of the non-electric means of initiation is carried out as follows: a fire pulse generated by a wave igniter element 4 ignites an initiating charge of low density from a deflagrating explosive 6. As a result, in the initiating charge 6 the combustion process turns into a high-speed explosive transformation and initiates a detonation process in an intermediate charge of high density 7 , made from a deflagrating explosive, and then initiates a detonation process in the output sample 8 from a blasting explosive. The detonation of the output sample 8 provides the formation of a shock wave with the required output characteristics.

A prototype was made at the enterprise, in which the output charge 8 is made of a blasting explosive, for example, tetranitropentaerythritol (PETN), the intermediate charge of high density 7 is made of a deflagrating explosive, for example, diperchlorate (5-nitrotetrazolato)-pentaammine cobalt (III) with a density of 1.57 …1.60 g/cm ³ (tubing), the initiating sample of low density 6 is made of a deflagrating explosive, for example, diperchlorate (5-nitrotetrazolato)-pentaammine cobalt (III) with a density of 1.45…1.55 g/cm ³ (tubing ). The wave igniter element 4 is made in the form of a shock wave tube (SWT), equipped with an internal hollow element 5 made in the form of a metal tube made of steel and installed in an elastic dielectric nozzle 3 made of a polymer material in the form of a sleeve, for example, rubber or low density polyethylene. pressure. In addition, the operability of the proposed device, made detachable and connected by means of a threaded connection or bayonet connection, as well as adhesive connection and welding, was tested. As for the materials from which the charge of explosives is made, it should be noted that blasting explosives are secondary explosives known from the source Physics of Explosion, ed. L.P. Orlenko, v. 1 section 1.4 Classification of explosives and compositions based on them, p. 11 (M. Fizmatlit, 2002).

With regard to information about the deflagrating explosive and its properties, including information about the density, it is known from the patent of the Russian Federation No. 2261851, publ. October 10, 2005 M.V. Ageeva, V.N. Egorova, V.A. Katalkina, V.N. Petrova, L.N. Chuchupal "Method of obtaining (5-nitrotetrazolato) pentaamminecobalt (III) perchlorate".

The use of this invention will improve the reliability, safety, efficiency and manufacturability of the device.

Thus, the above information testifies to the fulfillment of the following set of conditions when using the invention:

- in the non-electric means of initiation, intended for initiation during blasting, improved performance, namely efficiency, reliability, manufacturability, increased safety by eliminating initiating explosives and the electric method of blasting;

- for the claimed invention in the form as it is characterized in the claims, the possibility of its implementation using the above-described design solutions has been confirmed, namely, a non-electric initiating means with improved characteristics has been obtained;

- non-electric means of initiation, embodied in the claimed invention during its implementation, is capable of achieving the achieved technical result seen by the applicant.

Therefore, the claimed invention meets the condition of "industrial applicability".

- non-electric means of initiation, embodied in the claimed invention during its implementation, is capable of achieving the achieved technical result seen by the applicant.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (10)

1. A non-electric means of initiation, containing in a housing having a variable wall thickness in cross section, coaxially installed initiator in the form of a wave igniter element, an explosive charge (BB), made in the form of explosives in contact with each other, characterized in that the housing is made in the form of a glass, the bottom of which is in contact with the outlet sample of explosives made of blasting explosives, between the initiating sample of low density from the deflagrating explosive and the output sample of explosives there is an intermediate high-density sample made of deflagrating explosives, the wave igniter element is equipped with an internal hollow element made in in the form of a tube, and is installed in a part of the body with a smaller wall thickness in the cross section inside an elastic dielectric nozzle made in the form of a sleeve, and is associated with the initiating attachment of the explosive through a dielectric gasket made in the form of a washer. 2. A non-electric means of initiation, containing in a housing having a variable wall thickness in cross section, coaxially installed initiator in the form of a wave igniter element, an explosive charge (BB), made in the form of explosives in contact with each other, characterized in that the housing is made detachable, one part of which has a smaller wall thickness in cross section with a wave igniter element located in it, which is equipped with an internal hollow element made in the form of a tube and installed inside an elastic dielectric nozzle, which is made in the form of a sleeve, and is associated with an initiating attachment of an explosive through a dielectric a gasket made in the form of a washer, and the other detachable part of the body of the non-electric means of initiation is made in the form of a cup, the bottom of which is in contact with the output sample of explosives made of blasting explosives, while between the initiating sample of low density from the deflagrating explosive and the output sample of explosives There is an intermediate high-density charge made of a deflagrating explosive, while the initiating charge is coupled to the wave ignition element through a dielectric spacer. 3. Non-electric means of initiation according to paragraphs. 1, 2, characterized in that the elastic dielectric nozzle is made in the form of a polymer sleeve. 4. Non-electric means of initiation according to paragraphs. 1, 2, characterized in that the inner hollow element is made in the form of a metal tube. 5. Non-electric means of initiation according to paragraphs. 1, 2, characterized in that the inner hollow element is made in the form of a composite tube. 6. Non-electric means of initiation according to paragraphs. 1, 2, characterized in that the wave igniter element is fixed by crimping a part of the housing having a smaller wall thickness in cross section. 7. Non-electrical initiating means according to claim 2, characterized in that the detachable parts of the non-electrical initiating means are connected by means of a threaded connection. 8. Non-electrical initiating means according to claim 2, characterized in that the detachable parts of the non-electrical initiating means are connected by means of a bayonet connection. 9. Non-electrical initiating means according to claim 2, characterized in that the detachable parts of the non-electrical initiating means are connected by adhesive bonding. 10. Non-electrical initiating means according to claim 2, characterized in that the detachable parts of the non-electrical initiating means are connected by means of a welded joint.

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