RU2304754C2 - Protective detonating device - Google Patents

Abstract

FIELD: devices producing detonating moment for blasting of explosives of various ammunition and at blasting operations.

SUBSTANCE: the device has a plate with two inlets and one outlet, coupled by a detonation duct. The ducts form between the first inlet and outlet a long and a short branches with linking of the second inlet to the short branch. Actuating elements destroying the detonation linkage are installed at the joints of the long and short branches and of the shot branch with the second inlet. The first inlet is coupled to the means of detonation excitation. The actuating element is made in the form of a charge of an igniting compound it is positioned at the joint of the short-branch and the second inlet and installed un the side of the detonation duct. A partition is made between the short and long branches at their joint, and a connector is made on the other side of the joint for its displacement under the action of a blast. The detonation duct and the actuating element at the joint of the long and short branches are made of a secondary explosive.

EFFECT: enhanced safety and reliability of the device functioning in the conditions of influence of the climatic end mechanical factors, as well as enhanced adaptability to manufacture.

3 dwg

Description

The invention relates to the field of military equipment, in particular to explosive devices for detonating explosives of various types of ammunition, and can be used in devices for protecting against unauthorized detonation, and can also be used for blasting in devices of remote authorized detonation of explosive charges (explosives).

Known devices using an explosive logic circuit, in particular an explosive logic element And containing two inputs and one output, made in the form of detonation channels in a foam material, according to the invention according to the copyright certificate of the USSR No. 1778491, F42B 3/10, F42C 15/00, priority from 11/05/90, publ. 11/30/92, Bull. No. 44. The well-known logical element is equipped with an inert partition and an explosive receiving charge placed behind the inert partition before exiting, while the length L of the explosive receiving charge is determined from the relation L = 2D × Δτ, where D is the detonation velocity of the explosive charge, and Δτ is the admissible input initiation time providing passing an explosive signal to the exit. A well-known logical element performs the function of a logical element AND only with the simultaneous involvement of two inputs.

The reasons that impede the achievement of the technical result indicated below are the difficulty of synchronizing the receipt of commands at both inputs for reliable operation of the device, which leads to an increase in the dimensions of the known device, an analogue of the claimed invention, and insufficient reliability of the transmission of the explosive pulse through an inert partition to the receiving charge.

A device using an explosive logic circuit according to the patent of the Russian Federation No. 2247923, F42B 3/10, published on March 10, 2005. The known device contains a board with two inputs and one output, interconnected by detonation rods, forming between the first input and the output a long and short branches with a second input to the short branch, while at the joints of a long with a short branch, a short branch with a second input installed actuators that destroy detonation coupling. Detonation rods of deposited explosive are placed on both sides of the board, and through holes are made in the board, in which actuators are installed that destroy the detonation coupling, made in the form of a receiving charge from the deposited explosive and an adjacent inert barrier placed from the side of the destructible detonation bar with the ability to move under the action of the explosion products of the receiving charge.

The reasons that impede the use of this technical solution with the technical result described below are: insufficient reliability of the explosive logic circuit, due to the low mechanical strength of miniature detonation rods during prolonged vibration and shock effects that occur during actual use of the products; low manufacturability of the manufacture and assembly of the logic circuit due to the need for accurate installation and fastening of an inert barrier in the holes of the board; low heat resistance of an inert barrier made of polymethyl methacrylate (plexiglass), leading to a change in strength and geometric dimensions at high temperatures of about 100 ° C. The inertia of an inert barrier leads to another technical difficulty related to the difficulty of advancing the response time of the branch connecting the second input to the second actuating element with respect to the response time of the part of the short branch connecting the first input to the junction of the second actuating element, since the inertial motion start time obstacles are commensurate with the detonation time of the site to the junction of the second actuator with a short branch.

As a prototype of the claimed device, as the closest in technical essence and the number of common features, is a device using an explosive logic circuit - a logical element And - according to US patent No. 3753402, F42D 1/04, publ. 08/21/1973, the Device is a board made of inert material with two inputs (first and second) and one output, interconnected by detonation rods from a secondary plastic explosive, located in the channels and grooves on one of the surfaces of the board, forming between the first entrance and exit are long and short branches with the docking of the second entrance to the short branch. The device contains two actuators that destroy the detonation coupling, one of which is located at the junction of the long and short branches, and the other at the junction of the short branch and the second entrance. These actuators are made in the form of T-shaped destructible intersections of detonation rods, while in the joints of the rods the bars are made narrowing, sufficient for the explosive signal to pass in the forward direction and insufficient for signal propagation in the transverse direction. An output signal occurs when activating signals are applied to both inputs.

Common features of the known invention, selected as a prototype, with the claimed one are the presence of a board with two inputs and one output, interconnected by a detonation channel, forming between the first input and output a long and short branch with a second input to the short branch and the presence of two actuating elements destroying the detonation bond at the junction of a long branch with a short branch and at the junction of a short branch with a second entrance.

The reasons that impede the use of the known technical solution - the prototype with the technical result achieved by the claimed invention, is that for the constructive implementation of the known device using narrowing the channels, sufficient for the passage of the explosive signal in the forward direction and insufficient for the propagation of the signal in the transverse direction, plastic explosives with a large critical diameter of detonation, which will entail an increase in the dimensions of the device, and borders its application. Other significant reasons are the insufficient reliability of the operation of detonation rods and actuators made of plastic explosives due to their criticality at low temperatures, of the order of minus 70 ° C, due to the formation of cracks and gaps in the rods, especially at the joints and turns at sharp angles, and the high complexity of manufacturing due to the complexity of the formation of constrictions at the intersection and filling them with plastic explosives.

The objective of this technical solution is to create a safety-detonating device for explosive devices of ammunition and devices of remote authorized detonation of explosive charges used in blasting operations, which are highly safe and reliable in the conditions of mechanical and climatic factors that occur during the operation of military and civilian equipment .

The technical result of the claimed invention is to increase the safety and reliability of the operation of the safety-detonating device.

The specified technical result is achieved due to the fact that in the known device containing a board with two inputs and one output, interconnected by a detonation channel, forming between the first input and output a long and short branch with a second input docking to a short branch, in which at the joints long and short branches and a short branch with a second input installed actuators that destroy the detonation coupling, the first input is connected to the means of excitation of detonation, the actuator is located on the junction of the short branch with the second input, is installed on the detonation channel side and is made in the form of an igniter charge, a partition is made between the short and long branches at the junction, and on the other side of the junction is a jumper with the possibility of its movement under the action of the explosion of the first actuator, and the detonation channel and the actuating element at the junction of the long and short branches are made of secondary explosive. The board is made of an inert material, for example, an aluminum-based alloy, the ratio of the length of the long branch to the length of the short branch is within 1.5-7.5, the ratio of the cross-sectional area of the actuator at the junction of the long and short branches to the cross-sectional area of the partition is in between 1.3-1.8, the ratio of the width of the actuating element at the junction of the long and short branches to the thickness of the bridge is in the range of 1-2.5. The ability to move under the influence of the explosion of the bridge is provided by the discharge groove adjacent to it and made on the surface of the board from the detonation channel at the location of the junction of the long and short branches. As a secondary explosive, an explosive with a critical detonation size (layer thickness) of 0.12-0.15 mm, for example, benite or NFF, was used. An electric detonator, for example, ED-0.5-9, was used as a means of exciting detonation, and the charge of the igniter composition is an electric igniter, for example, EV-32.

The ratio of the length of the long branch to the length of the short branch, which is (1.5-7.5), is selected from the condition of ensuring reliable operation of the actuating element at the junction of the long and short branches (the first actuating element), which acts as a detonator, until the detonation arrives to it along a long branch, as well as fulfilling the requirements for the minimum dimensions of the device. The range of ratios of the cross-sectional areas of the first actuating element and the partition, which is (1.3-1.8), is selected from the condition that the parameters of the shock wave necessary for the destruction of the explosive and the bridge, on the one hand, and the impossibility of detonation in the explosive in a long branch, on the other hand, and the range of ratios of the width of the first actuator to the thickness of the jumper (1-2.5) is selected, on the one hand, from the technological capabilities of making a thin jumper, and on the other parties, - from the condition of reliability of its destruction in the process of functioning of the first actuating element.

Safety detonating device is illustrated by drawings.

Figure 1 presents a General view of the safety-detonating device.

Figure 2 presents a General view of the board (top view).

Figure 3 shows the portion of the board at the junction of the long and short branches of the detonation channel.

The safety-detonating device shown in figures 1, 2 and 3 includes a board 1 with a detonation channel forming a short branch 2 with the first actuating element 3 and a long branch 4, a baffle 5, a jumper 6 and an unloading groove 7, means of detonation excitation - electric detonator 8, the second actuator is an electric igniter 9. The electric detonator 8 and electric igniter 9 are installed in the sockets of the cover 10, mounted on the circuit board 1 with screws 11.

Figure 3, in the area of the board at the junction of the branches, a is the width of the first actuating element, b is the thickness of the jumper.

Board 1 of the safety-detonating device is made of an alloy based on aluminum, for example, duralumin alloy, with a detonation channel filled with a secondary explosive substance benite or NFF, rectangular cross section 1.0 × 0.5 mm ² , having a long 4 and short 2 branches, the sizes of which are selected taking into account the ratio of their lengths of 1.5-7.5. The first actuator 3, which is part of a short circuit 2 adjacent to the partition 5, has the same cross-sectional shape as the detonation channel. The partition is part of the board, and its thickness is selected from a range of 1.1-1.5 mm, while the ratio of the cross-sectional area of the actuating element 3 at the junction of 4 long and 2 short branches to the cross-sectional area of the partition is 1.3-1.8. On the other hand, at the junction of the long and short branches, a discharge groove 7 is formed on the board 1, which is a recess in the board, made, for example, by milling. Its dimensions should be sufficient to allow the jumper 6 to move when it is destroyed by the explosion of the first actuator 3. The jumper 6 is part of the board 1, has a thickness of 0.4 to 1.0 mm, at which the ratio of the width of the actuator 3 to the junction of a short 2 and a long 4 branches to the thickness of the jumper 6, equal to 1-2.5.

The device operates as follows.

Electrical signals from the control device are fed to the inputs of the safety-detonating device in the following sequence: the first signal is sent to the terminals of the electric igniter 9 (Fig. 1, 2), the second signal is sent to the terminals of the electric detonator 8 (Fig. 1, 2). The first electrical signal triggers the electric igniter 9, the resulting explosive transformation products, which are under high pressure, load the short circuit explosive 2 and destroy it in the area of contact with the electric igniter 9, breaking the detonation coupling with the first actuator 3, thereby eliminating the possibility of it triggering.

The arrival of the second electrical signal triggers the detonator 8 (Fig. 1, 2), as a result of which a detonation process occurs in the explosive of the detonation channel, propagating along the long 4 and short 2 branches, while the detonation process in the short branch 2 stops in the fracture region, formed as a result of the operation of the electric igniter 9, propagating along the long branch 4, and reaching the output, forms the output detonation pulse.

The time between the supply of the first and second signal depends on the conditions determined by the algorithm of the particular product in which it is used.

In case of violation of the sequence of electric signals or unauthorized (premature) signal to the terminals of the electric detonator 8 (1, 2), the detonation process that occurs as a result of the operation of the electric detonator 8 is distributed along the long 4 and short 2 branches. Due to the fact that the length of the short branch 2 is less than the length of the section of the long branch 4 to the location of the first actuating element 3, the detonation process along the short branch 2 reaches the actuating element 3, causing it to trigger, which leads to the destruction of the detonation connection of the long branch 4 with the output earlier than the detonation propagating through it reaches the junction of short 2 and 4 long branches. As a result, the detonation process in the long branch 4, having reached the area of destruction, stops, and the issuance of the detonation pulse to detonate the explosive does not occur.

The technical result of the safety-detonating device is high safety and reliability of operation under the influence of climatic and mechanical factors that occur during the operation of explosive devices, as well as the high manufacturability of the manufacturing of the safety-detonating device,

The technical result of the claimed invention is confirmed in the manufacture of pilot batches and positive test results in the composition of explosive devices.

Claims (5)

1. Safety detonating device containing a circuit board with two inputs and one output, interconnected by a detonation channel, forming between the first input and output a long and short branch with the second input docking to a short branch, while at the joints of long and short branches and short branches with a second input mounted actuators that destroy the detonation connection, characterized in that the first input is connected to the means of detonation excitation, an actuator located at the junction of the short branches with a second entrance, installed on the detonation channel side and made in the form of an igniter charge, a partition is made between the short and long branches at the junction, and on the other side of the junction is a jumper with the possibility of its movement under the action of an explosion, and the detonation channel and the actuator the junction of the long and short branches are made of secondary explosives. 2. The device according to claim 1, characterized in that the jumper is adjacent to the discharge groove made on the surface of the board from the detonation channel. 3. The device according to claim 1, characterized in that the board is made of an inert material, for example, an aluminum-based alloy, the ratio of the length of the long branch to the length of the short branch is within 1.5 ... 7.5, the ratio of the cross-sectional area of the executive the element at the junction of the long and short branches to the cross-sectional area of the septum is within 1.3 ... 1.8, the ratio of the width of the actuating element at the junction of the long and short branches to the thickness of the jumper is within 1 ... 2.5. 4. The device according to claim 1, characterized in that an explosive with a critical detonation size of 0.12 ... 0.15 mm, for example, benite or NFF, is used as a secondary explosive. 5. The device according to claim 1, characterized in that an electric detonator, for example, ED-0.5-9, is used as a means of exciting detonation, and the charge of the igniter composition is an electric igniter, for example, EV-32.

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