RU2710963C1 - Method of active change of trajectory of metal bodies moving with high speed - Google Patents

Abstract

FIELD: security means.SUBSTANCE: invention relates to protection of military and civil facilities. Motion sensor (1) interconnected with synchronization unit (2) is installed on proposed path of body (5) movement. Also, inductor (4) connected to magnetic-pulse unit (MPU) (3) is installed behind sensor (1) along prospective path of body (5) movement, at a distance sufficient for well operation of inductor (4). Synchronization unit (2) connects motion sensor (1) with MPU (3). As soon as body (5) crosses motion sensor (1) coverage area, synchronization unit (2) immediately operates, which instantaneously makes MPU (3) and inductor (4) operate. Inductor (4) generates pulsed magnetic field just at the moment when body (5) flies over it. Thus, the magnetic field changes the body motion trajectory.EFFECT: increasing the area of influence of magnetic field and increasing effective action on metal bodies moving at high speed.1 cl, 1 dwg

Description

The invention relates to the field of protection of military and civilian facilities.

A device is known for protecting an object along its border from bullets and fragments (patent for invention No. 2658473, IPC F41H 11/00, F41H 5/04, publ. 06/21/2018), containing a set of protective panels of multilayer ballistic fabric, placed in waterproof cases equipped with means for fixation, located in the protection with the overlapping of the type of "fish scale". The device is also equipped with a set of prefabricated modular frames for installation along the border of the protected object and installation of waterproof covers with protective panels placed on them. Prefabricated modular frames contain racks with crossbars installed on them. Quick-detachable connections were used as means for fixing waterproof covers to the crossbars of the frames: eyelets, straps, Velcro adhesive tape, lacing, zippers, buttons, buttons, hooks, locks. At the same time, the lower parts of the racks of prefabricated modular frames can be made screw or T-shaped, and for fixing the lower parts of the racks of frames on the ground, concrete blocks, bags filled with earth, sand, and gravel can additionally be used.

The disadvantage of this device is that it is a barrage structure and is a visible object for the opposite side. Also, this device covers a significant part of the review and is very cumbersome.

There is also a method of changing the trajectory of a bullet’s flight (https://www.kjmagnetics.com/blog.asp?p=curve-bullets), which consists in using a permanent magnet. A neodymium magnet is mounted on the bullet trajectory. A bullet flying over a magnetic field of a magnet falls under its influence and changes its trajectory.

The disadvantage of the described method, adopted as a prototype of the invention, is the insufficient power of the permanent magnet, which does not significantly change the trajectory of the bullet.

The technical result of the proposed method is to increase the zone of influence of the magnetic field and increase the effective effect on metal bodies moving at high speed.

The technical result is achieved due to the fact that in the method of actively changing the trajectory of motion of metal bodies moving at high speed, which consists in exposing the body to a magnetic field, while the magnetic field is generated using at least one inductor connected to magnetic pulse installation (MIU), and it is a pulse, while the inductor is set so that the path of the body intersects the zone of its impact, and in front of the inductor, at a distance sufficient for During its operation, at least one motion sensor is installed, connected to the synchronization unit, by means of which the MIU is activated by falling into the range of the motion sensor of the flying body.

The use of an inductor to create a pulsed magnetic field (IMP) allows you to increase the zone of influence of the magnetic field, due to the size of the inductor itself and the number of inductors.

The use of a pulsed magnetic field can significantly increase the effective impact on the flight of the body, due to significantly greater created power. UTI also allows you to economically consume energy, because Electricity is used only at the time of flight of the body.

The operation of the device for implementing the method is presented in the drawing.

The device comprises a motion sensor 1 connected to a synchronization unit 2, which, in turn, is connected to a magnetic pulse installation (MIU) 3 connected to an inductor 4.

The implementation of the method of actively changing the trajectory of the bodies is carried out in the invention as follows.

On the proposed path of movement of the metal object 5 (for example, a bullet), a motion sensor 1 is installed, interconnected with the synchronization unit 2. Also, an inductor 4 connected to the MIU 3 is installed, behind the sensor 1 along the estimated path of the bullet 5, at a distance sufficient for the inductor 4 to respond in time Synchronization unit 2 connects the motion sensor 1 with MIU 3. As soon as the bullet 5 crosses the coverage area of the motion sensor 1, the synchronization unit 2 is immediately activated, which instantly makes MIU 3 and inductor 4 work. The capacitor bank is discharged to inductor 4, and a pulsed (microsecond) magnetic field arises around its turns. In the pool, as a result of the intersection of the force lines, eddy currents are induced, which causes the appearance of electrodynamic repulsive forces. High speeds of the bullet 5 significantly increase the effect of interaction with the field lines of the field of the inductor 4, increasing the repulsion effect. The duration of the pulsed magnetic field of the inductor 4 is synchronized with the time of flight of the bullet 5 over the inductor. Thus, the magnetic field changes the trajectory of the bullet.

The method was applied to deflect an air rifle bullet. Rifle 6 was fixed at a distance of 1.5 m from target 7. An inductor 4 connected to MIU 3 was placed between the rifle and the target at a distance of 1.2 m from the target. The first shot was fired when the MIU was turned off. The bullet flew along the direct trajectory A. The second shot was fired when the MIU was switched on with an energy of 2 kJ. After the bullet flew over the inductor, she changed her trajectory (trajectory B) and punched a hole in the target at a distance of 200 mm. from the first hole, thus confirming the operability of the method.

Claims (1)

A method of actively changing the motion path of metal bodies moving at high speed, which consists in exposing the body to a magnetic field, characterized in that the magnetic field is generated using at least one inductor connected to a magnetic pulse installation (MIU), and it is pulse, while the inductor is set so that the path of the body intersects the zone of its impact, and in front of the inductor at a distance sufficient for its timely operation, set to m nshey least one motion sensor connected to the synchronization unit, with which drive the NIU, by entering the action flying body motion sensor zone.

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