RU2617822C2 - Pneumatic mine of non-lethal action - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to a pneumatic mine of non-lethal action, in which submunitions are represented by the hermetic fabric shell in the form of a truncated cone, at actuation filled by compressed air, and high frequency sound waves generated by air flow along the gas duct channel. The invention can be applied for mining terrains, for example, before the fenced perimeter of the protected area on the outside to prevent the attacker approximation to the fence, and can also be used in special operations, in the areas of which can be civilians. The device consists of the frame inside which the balloon with a valve-flap is placed, the cup with the spring drive and the hammer is fixed on the frame; the fabric shell, inside which the sound action element is placed, is fixed on the cup. The structural feature of the invention proposed is the membrane assembly consisting of the thrust ring, the elastic bursting membrane and the insert made composite of three parts not fastened together, sandwiched between the balloon neck and the frame, which is able to withstand for a long time a certain pressure inside the balloon and has the high response speed, ensuring thereby the fabric shell filling for a very short period of time to the required pressure.

EFFECT: guaranteed impact on the attacker is provided, while avoiding any injuries and mutilations.

6 dwg

Description

The invention relates to engineering ammunition of kinetic and acoustic action, in which a sealed fabric shell in the form of a truncated cone is used as the striking elements, filled when activated with compressed air, and high-frequency sound waves generated by the flow of air through the gas duct. The invention can be used to mine sections of the terrain, for example, in front of the fenced perimeter of the protected area from the outside in order to prevent an attacker from approaching the fence, and can also be used in special operations, in the areas of which civilians may be located.

A well-known directional mine / 1 /, containing a plastic case, an explosive charge, a block of finished striking elements and a fuse, and the explosive charge and a block of finished striking elements are configured to form, if necessary, a gap between them to control the throwing speed, the block itself ready striking elements made with the possibility of movement along the axis of the mine using a spring, pneumatic, pyrotechnic drive. An engineering mine is equipped with an intermediate explosive charge located between a block of ready-made striking elements and an explosive charge and equipped with an extraction (ejection) device. The mine’s hull is made in the form of a flat parallelepiped. The intermediate charge ejection device is made using a compressed spring, a pneumatic or pyrotechnic device. The intermediate charge of an engineering mine contains a detonator with a deceleration element and an action switch. The block of finished striking elements is made in the form of a layer of finished striking elements, the space between which is filled with a binding medium with low ductility and adhesive ability. Ready damaging elements are made in a form that ensures their tight packing in the block; for example, a cube, a hexagonal prism. The engineering mine is equipped with a control system that allows you to recognize the type of target, and a type of action switch. This device can “distinguish” an armed person and an unarmed person and can be used as both a military and non-lethal weapon.

The disadvantages of the device are:

- there is a certain probability of error when recognizing the target, both when controlling by wire or radio signal, and when using an autonomous control system, as well as when setting up a mine during installation;

- neutralization of unused mines, for example, at the cessation of hostilities, the party that established this munition will bear the risks associated with the life and health of personnel, as well as bear the costs associated with attracting a certain amount of special equipment and materials.

The closest functional accessory is the device "signal mine non-lethal action" / 2 /, containing an outer casing in the form of a cup, inside which are placed a combat element and a device for ejecting it from the outer casing, having a temperature and pressure sensor, a pyrotechnic retarding ring and an expelling charge wherein the combat element contains a warhead equipped with pyrotechnic elements of light-sound and light signaling action, a device oriented installation of the combat element on soil in the form of spring-loaded legs held in a transport position by a cap, and a detonating fuse including a head and a tail part, while the head part of the fuse contains target sensors in the form of spring-loaded thread extensions, a pyrotechnic moderator and an expelling charge to reset the cap and pyrotechnic retarder and blow-out charge for firing the head of the fuse, and its tail part is a safety-executive mechanism, which includes a spring-loaded firing pin and an engine with igniter capsule. The body of the warhead is made in the form of a cylindrical cage with upper and lower annular protrusions, central and evenly distributed longitudinal channels around it around the circumference, contains a base, on one side of which there is a central protrusion with an external annular groove and a rubber rubber ring placed in it, and on the opposite side there are gas outlet channels with pyrotechnic amplifiers, and a bottom sleeve compressed by the lower annular protrusion of the cage, while in the central protrusion of the base are placed with a clear charge for shooting the tail part of the fuse, and below it there is a pyrotechnic moderator and opposite them, in the bottom sleeve there is a pyrotechnic igniter connected to the longitudinal channels of the casing by transverse gas-water channels with pyrotechnic amplifiers, while the pyrotechnic elements of light-sound and light actions are respectively placed in different the longitudinal channels of the cage, and the pyrotechnic amplifiers - coaxially with the longitudinal, evenly spaced channels.

The fuse is mounted on the upper protrusion of the warhead housing using a sealing sleeve having an internal thread and an outer ring groove with a rubber seal ring, the tail part of the fuse is equipped with an external thread and has an external ring groove with a rubber seal ring, the sealing sleeve is crimped outwardly the body of the warhead and screwed with the help of internal thread on the tail of the fuse with the possibility of its placement in the central longitudinal channel of the core whisker warhead and providing preload to the central protrusion base warhead fuze lower end through obtyuriruyuschee rubber ring.

The disadvantage of this device is that in some cases, joint light-sound non-lethal exposure may not work; for example, due to the location of a person in the area, the light exposure may not be in the field of view of the person. Common disadvantages of the above devices / 1, 2 / are:

- devices have a low disguise, as they are installed above the ground;

- the manufacture of devices requires certain costs associated with the organization of explosion-proof production;

- devices cannot be reused.

The tasks to which the invention is directed are to create a device for covert placement (mines), capable of exerting a guaranteed effect on an attacker (and, during special operations, on civilians), expressed in imbalance during movement with subsequent fall, as well as in irritation nervous system with the restriction of auditory perception caused by the action of acoustic waves, the purpose of the impact is to hinder the movement of the enemy in a certain area (or total refusal of movement), excluding the infliction of injuries and injuries, with the possibility of repeated (multiple) use of the device, and the use of available technologies in the manufacture. This solution is provided by the device "pneumatic mine non-lethal action", comprising a housing, a cup, a spring drive, a safety element, a hammer, a load switch, an element of sound action with a gas channel, while the housing is made in the form of a supporting frame formed by a plate-shaped flange and a nickle with with a compression screw, the flange and the nickle are rigidly connected by the same strip segments, the cup, by means of a detachable connection, is fixed with a seal on the supporting frame, the connection itself consists of three fingers, fixed on the outer side of the dish-shaped flange and three l-shaped grooves of the glass, made on the bottom of the glass, on the side surface of the glass are three bushings with clamps, preloaded by belt springs, and oriented in a horizontal plane at an angle of 120 °, on the upper part of the glass with a clamp, a tissue sheath is fixed, made in the form of an inverted hollow truncated cone of height h1, the base of which is a bottom with a diameter of D1, a second, smaller diameter of the tissue sheath p Aven the outer diameter of the glass, the fabric shell is folded by the method of bending with the formation of wave-like folds, a hole with a diameter of D2 is made on the bottom, a pressure cover is glued to the inner surface of the bottom, made in the form of a disk with a diameter of D3 with a through central hole with a diameter of D4, a sound effect element with a gas channel is made in the form of a cylinder with a diameter of D5 and a height of h2 and is rigidly fixed to the pressure cover, the outlet of the gas channel of the sound element and the central hole of the pressure the lugs coincide with the hole made on the bottom of the fabric shell, the pressure cap itself is supported through the sound effect element on the edges of the frame installed inside the glass with a sliding fit and made in the form of a glass with side wall height h3, at the bottom of which there are profile windows in the amount of n, and the ribs are rigidly fixed between the windows, the spring drive is made in the form of a power screw cylindrical compression spring, one end resting against the flanging of the cup, made inward, the other end into the bottom of the frame, switch The load carrier is made in the form of bullets of different diameters and depths on the side wall of the frame, arranged horizontally in a row and quantity i, the rows themselves are oriented in a horizontal plane at an angle of 120 °, and the latches abut the bullets of the same size, the safety element is made in the form of a plate with a longitudinal slot and installed in the slots made on the side surface of the glass, between the safety element and the frame there is a gap of magnitude σ, the hammer is fixed to the bottom of the frame and is made in the form of a point a pin with a height of h4, a diameter of D6 and a taper angle λ, at a distance k from the bottom of the frame to the hammer, a stop is fixed in the form of two plates, a cylinder of volume V with a valve valve is placed inside the frame, the end of the neck of the cylinder is made in the form of a ring with a comb surface wherein the outer diameter of the annular surface is equal to the outer diameter of the neck, and the inner outlet is made with a diameter of D7, the membrane assembly is clamped between the flange ring and the annular surface of the neck of the cylinder, consisting of a thrust ring having an outer diameter equal to the diameter of the neck, the inner diameter D8 and a thickness s1, the elastic bursting disc thickness s2, configured as a circular hollow cone height h5, an effective surface area F _eff with vertex facing inwardly balloon, and flaring to the base wherein the flanging diameter is equal to the diameter of the neck of the container and insert in the form of a hollow truncated circular cone with a base diameter D9, a small diameter D10, a height h6 and a wall thickness s3 and installed between the inner cone second surface of the membrane and the thrust ring, wherein the insert is not a composite of three parts connected to each other - the conical tip and two side walls held between a diaphragm and the projections formed on the insertion parts,

A design feature of the invention is a membrane assembly consisting of a thrust ring, an elastic bursting membrane and an insert made of three parts not fastened together, which is able to withstand a certain pressure P inside the cylinder for a long time, and when destroyed, has a high response speed, providing this filling the tissue membrane in a very short period of time to a certain pressure P ₁ .

In FIG. 1 shows an example embodiment of the invention in a position before combat use. A cylinder (2) with a valve valve (3) is placed inside the frame (1), a glass (4) is fixed on the frame, on which a fabric sheath (6) is fixed with a clamp (5) (shown in the folded state), in the slots (7) cup (4) mounted safety element (8).

In FIG. 2 shows a device of a pneumatic mine. A membrane assembly (10) is clamped between the frame (1) and the cylinder (2) by the clamping screw (9), and a sealing ring (11) is installed between the frame (1) and the inside of the glass (4), a frame (12) is installed inside the glass with profile windows and ribs, a drummer (13) fixed on it with an emphasis (14) and a spring (15), for fixing the glass (4) on the frame (1), l-shaped selections are made near the glass (16), and rigidly fixed on the frame fingers (17), for fixing the frame (12) with the hammer (13) when compressing the spring (15) on the side surface of the glass in the bushings (18) are spring-loaded ixators (19), which abut against beetles, made on the side wall of the frame (12) (not shown in Fig.) and which are designed to adjust to different actuation forces, for inward support of the spring (15), the flange is made “inward” (20) ), in the firing position (spring (15) is compressed) on the ribs of the frame (12) is supported by a pressure cap (21) with a sound element (22) having a gas duct (23), pressure cap (21) is glued to the inner surface of the fabric shell (6) (shown in the folded state) with the alignment of the hole (24) made on the fabric casing with the exit of the gas-water channel (23).

Pneumatic mine non-lethal action works as follows (Fig. 1, 2). Before use, the membrane assembly (10) is clamped between the frame (1) and the cylinder (2) with a screw (9), and the cylinder is pumped through the valve-valve (3) with compressed air to pressure P, in the glass (4), the hammer is compressed by compressing the spring (15) ) is transferred to the combat position (the latches (19) abut against the corresponding beetles), a safety element (8) is inserted into the slot (7) (which prevents accidental operation during installation), and the fabric cover (6) is folded in a certain way so that the pressure the cover (21) rested on the edges of the frame (12), the frame (1) with a cylinder (2) is installed in the ground in a pre-prepared hole, then a glass (4) is installed on the frame (12) with a sealing ring (11), the safety element (8) is removed, and the slots (7) are closed, for example, with pieces of adhesive tape and mine disguised. When a certain force F is applied to the pressure cap (21), which is created by the pressure on the ground at the point of the mine’s placement when the person is moving and acting in a vertical plane, the force is transmitted to the frame (12) with a hammer (13), the latches (19) “exit” beetles, and the frame “breaks off” and under the action of the force F and the force of the expandable spring (15) Q _s moves down, the hammer (13) destroys the integrity of the membrane assembly (10), the resulting flow of compressed air from the cylinder (2) finally destroys the membrane knot (10), and tissue sheath (6) for a short intermediate the time current is filled with air to a pressure P ₁ and takes the form shown in FIG. 3. In FIG. 4 shows the stages of the destruction of the membrane unit, consisting of an elastic membrane (24), an insert formed by a conical tip (25) and two sidewalls (26), a thrust ring (27). Under the action of the forces F and Q 3, the _firing pin (13) first punctures the elastic bursting disc (24), under the influence of the internal pressure P in the cylinder (2), the elastic membrane (24) begins to break at the puncture site, then under the action of the forces F and Q 3 the _firing pin (13) with emphasis (14) presses on the conical tip (25), which together with the pressure P and the high-velocity flow of the beginning air flow destroys the elastic bursting membrane (24) even more, the finally elastic bursting membrane (24) destroys the high-speed air flow created by pressure P, in this section sidewalls (26) are added. Kinetic energy when filling the tissue membrane with compressed air (6) throws a single point of support of a person back and up. The center of gravity is sharply moved back, the hind leg is bent. At the same time, it is impossible to “find” the second fulcrum, since body weight has a rather large effect on the bent knee joint. The calf muscles, thigh muscles and cruciate knee ligaments are not able to cope with such a load to align the center of gravity. It remains only to fall back on the arms, back or gluteal muscles. It is not possible to take any action to prevent a fall. Almost simultaneously with the filling of the tissue membrane (6), air begins to flow through the sound action element (22) with the gas channel (23), generating high-frequency sound waves, affecting the human nervous system and signaling the place or direction of mines fire. After firing, the mine can be reused - a new elastic bursting disc (24) is installed, and the cylinder (2) is filled with compressed air.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention in its implementation, is intended to expand the existing arsenal of non-lethal mines;

- for the claimed invention in the form described in the independent clause of the stated formula, the possibility of its implementation using the design description provided in the application is confirmed;

- a tool embodying the claimed invention in its implementation, is able to ensure the achievement of the technical result perceived by the applicant, namely: to produce a pneumatic mine of non-lethal action using traditional technologies.

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

The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find a source characterized by features identical to all the essential features of the claimed invention.

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify signs that match the distinctive features of the claimed invention from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention is not revealed from the prior art determined by the applicant to achieve a technical result. In particular, the claimed invention does not provide for the following transformations:

- addition of a known product by any known part, attached to it according to known rules, to achieve a technical result, in respect of which the effect of such an addition is established;

- replacement of any part of a known product with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;

- an increase in the number of elements of the same type of action, to enhance the technical result due to the presence in the tool of precisely such action elements;

- the implementation of a known tool or part of a known material to achieve a technical result due to the known properties of this material;

- the creation of a tool consisting of known parts, the choice of which and the relationship between them are based on known rules, recommendations, and the technical result achieved in this case is due only to the known properties of the parts of this tool and the relationships between them.

The described invention is not based on a change in a quantitative characteristic, the presentation of such signs in relationship, or a change in its appearance.

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

List of figures

1) FIG. 1. An example embodiment of the invention "Pneumatic mine non-lethal action."

2) FIG. 2. The device of a non-lethal pneumatic mine.

3) FIG. 3. Pneumatic mine of non-lethal action after operation.

4) FIG. 4. Stages of destruction of the membrane node.

Information sources

1. Patent of the Russian Federation No. 2206864 dated 06/20/2003. An engineering mine of directional action.

2. RF patent No. 2401980 of 10.20.2010. A signal mine of non-lethal action.

Claims (1)

Non-lethal pneumatic mine, comprising a housing, a cup, a spring drive, a safety element, a hammer, a load switch, a sound element with a gas duct, characterized in that the housing is made in the form of a supporting frame formed by a plate-shaped flange and a nickle with a compression screw, a flange and the nickel are rigidly connected by the same strip segments, the glass is sealed to the carrier frame by means of a detachable connection, the connection itself consists of three fingers, closed insulated on the outer side of the dish-shaped flange and three l-shaped grooves of the glass, made on the lower part of the glass, three bushings are fixed on the side surface of the glass with clamps, preloaded by belt springs, and oriented in a horizontal plane at an angle of 120 ° to the upper part of the glass with a clamp fixed tissue shell, made in the form of an inverted hollow truncated cone with a height of h1, the base of which is a bottom with a diameter of D1, the second, smaller diameter of the tissue shell is equal to the outer diameter of the glass , the fabric shell is folded by the method of bending with the formation of wave-like folds, a hole with a diameter of D2 is made on the bottom, a pressure cover is made on the inner surface of the bottom, made in the form of a disk with a diameter of D3 with a through hole in the diameter of D4, the sound effect element with a gas channel is made in the form of a cylinder with a diameter D5 and a height of h2 and is rigidly fixed from below to the pressure cap, the outlet of the gas channel of the sound element and the central hole of the pressure cap coincide with the hole The method made on the bottom of the fabric shell, the pressure cap itself through the sound acting element rests on the edges of the frame installed inside the glass with a sliding fit and made in the form of a hollow glass with side wall height h3, at the bottom of which there are profile windows in the amount of n, and the ribs rigidly fixed between the windows, the spring drive is made in the form of a power coil screw compression spring, one end resting against the flanging of the cup, made inward, the other end into the bottom of the frame, the load switch flax in the form of pupples of various diameters and depths on the side wall of the frame, arranged horizontally in a row and in an amount i, the rows themselves are oriented relative to each other in a horizontal plane at an angle of 120 °, and the latches abut the pupples of the same size, the safety element is made in the form of a plate with a longitudinal slot and installed in the slots made on the side surface of the glass, between the safety element and the frame there is a gap of magnitude σ, the hammer is fixed to the lower part of the frame and is made in the form a pointed pin with a height of h4, a diameter of D6, and a taper angle λ, at a distance k from the bottom of the frame to the hammer there is a fixed stop in the form of two plates, a cylinder of volume V with a valve valve is placed inside the frame, the end of the neck of the cylinder is made in the form of a ring with a comb surface wherein the outer diameter of the annular surface is equal to the outer diameter of the neck, and the inner outlet is made with a diameter of D7, the membranes are clamped between the flange ring and the annular surface of the neck of the cylinder a node consisting of a thrust ring with an outer diameter equal to the neck diameter, inner diameter D8 and thickness s1, an elastic bursting membrane of thickness s2 made in the form of a circular hollow cone of height h5, effective surface area F _eff with a vertex facing the inside of the cylinder, and flanging on the base, while the flanging diameter is equal to the diameter of the neck of the container and insert in the form of a hollow truncated circular cone with a base diameter D9, small diameter D10, height h6 and wall thickness s3 and installed between the inner the conical surface of the membrane and the thrust ring, and the insert is made up of three parts not fastened together - a conical tip and two side walls held together by a membrane and protrusions made on the parts of the insert.

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