RU169706U1 - LOW VOLTAGE ELECTRONETONATOR - Google Patents

Abstract

The utility model relates to the field of blasting, to means of detonating explosive charges (EX), in particular to electric explosive devices - electric detonators (ED) designed to transmit a detonation pulse to an explosive charge. NED includes a conductive housing with the main charge placed in it and an initiator consisting of a sleeve, an explosive charge, an incandescent bridge and a pad, including a sleeve electrically connected to the sleeve and a central electrode, which are pressed with an insulating material, while the NED is placed in an additional indestructible housing, internal the surface of which is molded with an insulating material, while the conductive housing on the side of the central electrode is also molded with an insulating material, with it to the central electrode and the body are soldered to a conductive flexible outputs for connection to a standard connector. The technical result is to ensure universality of use and increase the safety of handling. 1 ill.

Description

The utility model relates to the field of blasting, to means of detonating explosive charges (EX), in particular to electric explosive devices - electric detonators (ED), designed to transmit a detonation pulse to an explosive charge. Such devices, first of all, must have reliable operation and safe handling throughout the entire period of existence (during manufacturing, storage, transportation, operation).

In the prior art, electric explosive devices with a coaxial arrangement are known which are used to increase protection against the effects of static electricity discharges. So, for example, the electric initiator according to the patent US 5433147 (published from 07/18/1995) is known, having a metal sleeve electrically connected to the first contact of the connector, a bridge, a central electrode connected to the second contact of the connector, and igniter hinges. The sleeve is built into the plastic material by injection molding, inserted into the housing and made with protrusions, one of which has the first contact of the connector, and the second protrusion is installed so that its end section is in a small gap of the plastic material. The coaxial arrangement provides protection against static discharges.

The disadvantage is the complexity of manufacturing.

In the description of the patent for invention RU 2104467 (published on 02.10.1998), an electric initiator construction is presented comprising a conductive housing with an explosive charge and an electric ignition unit made of foil fiberglass with two concentric electrodes, one of which is connected to the housing, and the second brought out through the current lead outward along the axis of the product, and a bridge between the electrodes, while the connection of the electrode to the housing is made of fusible solder, and the thickness of the electroflammable unit is 0.25-0.8 HE charge height. The diameter of the conductor is 0.5-1.0 thickness of the igniter assembly.

The disadvantage of this known design is the low-tech assembly due to the electrical contact of the ring electrode with the housing using intermediate elements and soldered joints, which also leads to an increase in cost.

In the description of the patent for the invention RU 2343400 (publ. 10.01.2009) presents the design of the electric detonator (ED), partially eliminating the disadvantages of the previous analogue. This ED refers to low-voltage electric detonators (NED) of increased safety and is selected as the closest analogue. The NED includes a destructible conductive housing with the main explosive charge placed in it and an initiator consisting of a sleeve, an explosive charge placed in the cap, an incandescent bridge and a block including a sleeve that is an annular electrode and electrically connected to a sleeve installed with a gap relative to the housing , and the central electrode, which are pressed with an insulating material. The length of the main explosive charge is less than the length necessary for the transition of combustion to the detonation of the explosive of this charge. The voltage from the current source is supplied to the central electrode and the housing.

The disadvantage of the closest analogue is that its outer casing is made destructible and conductive, as well as the fact that it does not provide for the use of a standard connector for supplying an electrical impulse to the NED electrodes, which narrows the scope of its application.

The technical result is to ensure universality of use and increase the safety of handling.

The specified technical result is achieved due to the fact that in the design of a low-voltage electric detonator containing a conductive housing with a main charge and an initiator consisting of a sleeve "explosive charge, an incandescent bridge and a plug including a sleeve and a central electrode electrically connected to the sleeve, which are crimped electrical insulating material, new is that the electric detonator is placed in an additional indestructible housing, the inner surface of which is electrically insulated ionic material, while the conductive housing on the side of the central electrode is also pressed with insulating material, and flexible leads are soldered to the central electrode and the conductive housing for connection to a standard connector.

The features distinguishing the new solution from the closest analogue include the following:

- the presence of an additional external indestructible thick-walled case, which increases the safety of handling, preventing the formation and expansion of fragments, and expands the possibilities of use, without requiring additional protection of personnel and equipment;

- crimping the inner surface of the additional housing with electrical insulating material, which eliminates the galvanic connection between it and the conductive housing, as well as use an additional housing of the same size for different sizes of conductive housings;

- crimping the conductive casing from the side of the central electrode with an insulating material, which eliminates the galvanic connection between the conductive casing and its fixing element, and also allows you to vary the size of the conductive casing;

- the presence of parallel flexible leads, one of which is soldered to the central electrode, and the second to the conductive housing, which allows the use of a standard connection, as well as safely connect the wires to the electrical circuit.

The presence of distinctive features allows us to conclude that the new solution meets the criterion of "novelty." The combination of distinctive features allows you to achieve the specified technical result, which cannot be achieved with the fragmentation of features.

The drawing shows the design of the NED, where: 1 - housing; 2 - curb clip; 3 - electric igniter; 4 - bridge; 5 - a cap with a heating element; or 6 - a cap with OKTANAL; 7 - block: 8 - sleeve; 9 - a central electrode; 10 - gasket; 11 - a nut; 12 - wires; 13 - compound EK-34; 14 - igniter charge; 15 - retarding composition; 16 - the composition of the main; 17 - threaded sleeve; 18 - cap equipped with a high-density explosive charge; 19 - connector type RS7TV; 20 - flare nut.

An example of a specific implementation is NED in different versions, the design and layout solution of which is common, the difference is in the compositions used in the electric igniter and the differences in the thread parameters, with which the NED is docked with actuators (M121, M121.5 or M121LH).

The NED housing is made of thick-walled and indestructible. Its inner surface is crimped with insulating material AG-4 and a conductive cage is installed in it, the end face of which on the side of the central electrode is also pressed AG-4. At the same time, the clip through the washer is pressed against the shoulder of the housing by a nut and a hole is made in the clip to accommodate the second flexible terminal (the first is soldered to the central electrode). The holder contains an electric igniter and a detonator capsule. The NED electric igniter has a coaxial layout and includes a sleeve in which a block is installed with a central electrode, a soldered bridge, a hitch and an equipped cap. The cap can be equipped with a brand A heating element (OCT B95 2275-81), and the OKTANAL compound is used as a hitch adjacent to the bridge (developed by FSUE RFNC-VNIIEF, AOTU 391 and is protected by patent for invention SU 1825354 with priority from January 11, 1991). In another design, the cap is equipped with the OKTANAL compound, and the hitch is made of the Kr50Sd50 incendiary slowdown compound (OCT B84 207-78) and consists of three parts: the first is adjacent to the bridge, the third is to the cap equipped with OKTANAL, and the second is located in the sleeve channel, established between the first and third parts. The length of the sleeve ensures that the cap is buried when installed in an electric igniter. In the threaded sleeve, the main explosive composition is placed, to which is attached a cap with a high-density explosive charge. A flexible lead (PETV wire) is soldered to the central electrode for soldering into a standard RS7TV connector.

NED works as follows.

When voltage is supplied from the current source to the connector 19, fixed by a nut 20 on the housing 1, current will flow through the wires 12 to the clip 2 and the electrode 9 through the bridge 4. Thanks to the thick-walled design of the pressed-in inside of the casing and the hermetically sealed standard connector, electrical handling safety is ensured. Under the action of the current, the bridge 4 heats up and ignites the hinge plate 15 made of OKTANAL adjacent to the bridge 4, or, in the case of a hinge plate 15 of three parts, the part adjacent to the bridge is first ignited, and then the other parts. The choice of material of the sample 15, its mass and length is associated with providing the required response time of the NED. Then the combustion is transferred to the composition located in the cap 5 or 6. Under the action of the combustion products, the bottom of the cap equipped with 5 or 6 breaks and the combustion products enter the threaded sleeve 17 with the main composition 16. In the sleeve, the combustion of explosives goes into detonation. The necessary initiating ability is provided by the presence at the "exit" of the main composition of the cap equipped with heating element 18. After the operation of the NED, the thick-walled case 1 does not collapse, preventing fragments from flying to the sides.

T.O. The claimed device is safe to use and universal in use.

Claims (1)

A low-voltage electric detonator, including a conductive housing with a main charge and an initiator, consisting of a sleeve, an explosive charge, an incandescent bridge and a plug, including a sleeve electrically connected to the sleeve and a central electrode, which are pressed with an insulating material, characterized in that the electric detonator is placed in additional indestructible housing, the inner surface of which is pressed with an insulating material, while the conductive housing is on the side Crimp ENTRAL electrode also electrically insulating material, wherein the central electrode and body are soldered to a conductive flexible outputs for connection to a standard connector.

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