RU47089U1 - DEVICE FOR OVERCOMING MINING EXPLOSIVE DAMAGES - Google Patents

Abstract

The utility model relates to means of combating mines and is intended for making passages in an explosive way in mine-explosive barriers. The technical result from the use of the proposed solution lies in the possibility of practically silently placing clearance charges in hard-to-reach areas of the terrain with a pre-selected configuration of touchdown points, the simplicity of using the method and its low cost. The technical result is achieved in that in a device for overcoming mine-explosive barriers containing a launcher comprising a barrel with a clearance charge, a charge launch energy source, a hinge and a limb with marks for changing the angle of inclination of the barrel in a vertical plane, according to the invention, a launch energy source made in the form of a gas pulse generator coupled to the barrel, connected to a source of compressed gas and a trigger mechanism. while the source of compressed gas is equipped with a pressure regulator of compressed gas. The proposed device provides a silent, high-precision placement of charges on a minefield, using compressed gas as the energy for launching clearance charges, which is tens of times cheaper than the energy of powder charges, as a result of which effective clearance can be made in hard-to-reach areas at minimal cost.

Description

The utility model relates to means of combating mines and is intended for making passages in an explosive way in mine-explosive barriers.

A known installation for mine clearance of explosive barriers using elongated clearance charges (UZR). The installation contains a rocket to which a flexible cable with explosive and a brake cable are attached, fixed at one end to the tail of the mine clearance charge, and the other to the anchor on the launcher. An electric cable is laid inside the brake cable. After the launch, the charge drops along with the rocket to the minefield and the calculation of the installation gives an electric pulse to the fuse of the charge, causing it to explode and to shoot the brake cable. As a result of the explosion of a mine clearance charge, a strip free of mines up to 6 meters wide and up to 80 m long is formed. (I)

The disadvantage of using the UR-67 installation is the small width of the obtained passage (up to 6 m), as well as the inability to change the length of the passage.

A device is known for overcoming a tank of mine-explosive barriers containing launchers designed to launch smoke grenades and including barrels, cable assemblies, a control panel, and clearance charges. Each launcher is equipped with a hinge and a limb with marks and is installed with the ability to change the angle of inclination of the barrel, while the charges of clearance are placed in the trunks of launchers. (II) is a prototype.

The main disadvantage of this device is that the use of a tank and firing with powder charges leads to a significant noise effect, which does not provide the possibility of covert preparation for clearance. Another disadvantage is the difficulty of using the tank in remote, for example, mountainous areas, as well as the limited use of such a device due to the high cost of the tank with powder launchers. In addition, the known device does not provide the necessary configuration of the landing points of clearance of demining charges, since firing is carried out only along the longitudinal axis of the tank, and in some cases it is necessary to install clearance charges with a different configuration of landing points.

The task to which the claimed utility model is directed is to ensure the secrecy of preparation for clearance, the possibility of using the device in hard-to-reach areas of the terrain, and to reduce the cost of clearance.

The technical result from the use of the utility model consists in the possibility of practically silently placing clearance charges in hard-to-reach sections of the terrain with a pre-selected configuration of touchdown points, the ease of use of the device and its low cost.

The specified technical result is achieved in that in a device for overcoming mine-explosive barriers containing a launcher comprising a barrel with a clearance charge, a charge launch energy source, a hinge and a limb with marks for changing the angle of inclination of the barrel in the vertical plane, according to the utility model the launch energy is made in the form of a gas pulse generator, coupled to the barrel, connected to a source of compressed gas and a trigger mechanism, while the source of compressed gas is equipped with a regulator pressure of compressed gas.

The drawing shows a device for overcoming mine explosive barriers.

A device for overcoming mine-explosive barriers contains a launcher consisting of a barrel 1 with a clearance charge 2, an energy source for launching a clearance charge in the form of a gas pulse generator 3 connected to the barrel 1, made, for example, in accordance with RF patent N 2214296, rack 4 , stop 5 with hinge 6 and limb 7 with marks for changing the angle of inclination of the barrel in a vertical plane. The device is equipped with a source of compressed gas, made, for example, in the form of a cylinder 8 connected to a gas pulse generator 3 and a trigger, made, for example, in the form of a trigger 9, kinematically connected with a generator 3. The cylinder 8 is equipped with a pressure gauge 10 and a pressure regulator gas, made, for example, in the form of a gear 11.

The operation of the device for overcoming mine-explosive barriers is as follows.

The installation is placed near the site of the area to be cleared. Using the hinge 6 and the limb 7 set the barrel 1 at the required angle to the horizon, depending on the firing range. After pointing the barrel at the mine clearing site, the unit is charged with a clearing charge 2 and the gas pulse generator 3 is filled with compressed gas from cylinder 8 using a pressure reducer 11, controlling the gas pressure with a manometer 10. When the required pressure is reached, trigger 9 is pressed. As a result of the implementation of wave processes in the generator of gas pulses 3, a constant pressure (0.3 ... 0.6 MPa) is converted into a high-energy (100 kJ or more) pulse that is transmitted to the mine clearance charge 2, which is emitted etsya of the barrel 1 in the chosen direction for a distance of 300 meters. By changing the pressure of the compressed gas in the generator 3, it is possible to control with precision the points of landing of charges on the minefield, providing their desired configuration. Additionally, the specified configuration of the points of touchdown of clearance charges is achieved by changing the angle of inclination of the barrel 1 launcher. If it is necessary to mine a wide passage, the charges are placed on the minefield in a checkerboard pattern at a certain distance from each other, by reinstalling the device along the minefield or by using several devices at the same time. If it is necessary to mine a narrow passage in a minefield, the charges are placed in one line with a certain step. The step of placing the charges depends on the explosion resistance of the mines and is equal to the distance at which the mine detonates when the mine charge is detonated.

To ensure the secrecy of mine clearance, practically silent placement of clearance charges on the terrain and their simultaneous detonation by means of radio-controlled fuses are carried out. If this condition is not set, clearance can be done by alternately detonating the charges with the help of fuses of shock action.

Thus, the proposed utility model provides a silent, high-precision placement of charges on a minefield using compressed gas as the energy for launching clearance charges, which is tens of times cheaper than the energy of powder charges, as a result of which effective clearance can be made in hard-to-reach areas with minimal costs.

Claims (1)

A device for overcoming mine-explosive barriers containing a launcher including a barrel with a clearance charge, a source of energy for launching a clearance charge, a hinge and a limb with marks for changing the angle of inclination of the barrel in a vertical plane, characterized in that the source of launch energy is made in the form of a docked with the barrel of the gas pulse generator connected to the source of compressed gas and the trigger mechanism, while the source of compressed gas is equipped with a pressure regulator of the compressed gas.