CN211651399U - Pellet interlocking type anti-riot kinetic energy pellet - Google Patents

Abstract

The utility model discloses a bullet interlocking formula anti-riot kinetic energy bullet, including shell case, primer, hyperbaric chamber, propellant powder, biography fire hole, low-pressure chamber, sabot, sponge shot, interlocking mechanism and sealing pad, the quantity of sponge shot is three, three sponge shot is vertical to be placed in the sabot inside, the sabot is processed by the resistant high temperature engineering plastics of polyimide and is made, three sponge shot is locked into a whole by interlocking mechanism, interlocking mechanism is made by the whole processing of high strength rubber, interlocking mechanism includes interlocking area and lantern ring, three sponge shot that is locked by interlocking mechanism can carry out the multiple spot to the target and strike, simultaneously because relative position locking, the projectile spreads lessly, is difficult for hitting the fragile position of target, in addition, the sponge shot that is fillet column structure is difficult for causing excessive scotch to the target, consequently, the utility model discloses the safety in utilization is very promoting, and tactics excellent performance simultaneously provides new means for military and police department carries out diversified task.

Description

Pellet interlocking type anti-riot kinetic energy pellet

Technical Field

The utility model relates to an anti-riot bullet technical field specifically is an anti-riot kinetic energy bullet of shot interlocking-type.

Background

Since the 70's in the 19 th century, kinetic energy non-lethal weapons were widely used in places where the military police department did not need or is not suitable for using lethal weapons, and riot-proof kinetic energy ammunitions are important members of kinetic energy non-lethal weapons, and can be divided into single ammunitions and shot ammunitions according to the number of shots, wherein the single ammunition mainly aims at a single target, and the shot ammunitions aim at group targets, but the shot ammunitions are easy to accidentally hit weak parts of targets due to large projectile scattering during use, and the single ammunitions are easy to cause excessive injury or fail to achieve the expected pain-causing purpose, so how to effectively exert the effect of multipoint hitting of the shot ammunitions, and meanwhile, reducing the projectile scattering becomes an attractive important development direction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an anti-riot kinetic energy bullet of shot interlocking-type to solve the problem that the multiple spot is difficult to realize that the projectile spreads big among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a projectile interlocking type anti-riot kinetic energy projectile comprises a projectile shell, a primer, a high-pressure chamber, a propellant powder, a fire transfer hole, a low-pressure chamber, a projectile support, a bottom support, a slotted side wall, a sponge projectile, an interlocking mechanism, an interlocking belt, a lantern ring and a sealing pad; the method is characterized in that: the primer is riveted in shell case bottom end face axle center department, the primer is mechanical striking formula primer, the primer upside is provided with the hyperbaric chamber of bowl form, the inside transmission medicine that loads of hyperbaric chamber, hyperbaric chamber up end axle center department is provided with the biography fire hole, it is provided with the low-pressure chamber that is cylindric cavity to pass fire hole upside, the low-pressure chamber upside is provided with the bullet and holds in the palm, three pieces of sponge shots are placed to the inside vertical loading of bullet support, three pieces of sponge shots are locked as a whole through interlocking mechanism, the superiors' sponge shot upside is supported and is leaned on and has been sealed the pad, seal the pad and be used for sealed shell case.

Preferably, the cartridge case is integrally formed by pressing stainless steel materials, and the inner diameter of the cartridge case is 38 mm.

Preferably, the fire transfer holes are sealed by hot melt adhesive.

Preferably, the bullet holds in the palm and is made by the resistant high temperature engineering plastics processing of polyimide, the bullet holds in the palm including holding in the palm the end and fluting lateral wall, the thickness of holding in the palm the end is 5mm, the thickness of fluting lateral wall is 1.5mm, the fluting lateral wall holds in the palm the quantity of lamella and is 6, 6 support lamella are circumference array along the axis that the bullet held in the palm and distributes, hold in the palm the end and set up the predetermined rupture groove with fluting lateral wall junction.

Preferably, the sponge shot is of a cylindrical structure with round corners arranged at the upper end line and the lower end line, and a concave groove is formed in the middle of the outer side of the side wall of the sponge shot.

Preferably, the interlocking mechanism is integrally processed and manufactured by high-strength rubber, and comprises three interlocking belts and three lantern rings, wherein the three lantern rings are sleeved in the concave grooves in the side walls of the sponge shots.

Preferably, the side end face of the sealing pad is adhered and fixed with the inner wall of the shell casing through 914 glue.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model locks the three sponge shots into a whole by designing the interlocking mechanism, which is beneficial to forming multi-point striking on a single target, and has better pain-causing effect, meanwhile, because the positions between the sponge shots are relatively fixed, the projectile is less scattered, and the situation that the weak part is accidentally hit when similar shot is struck is not easy to occur;

2. the utility model adopts the design of the sponge pill, which can not penetrate the target, is not easy to generate excessive scratch and has higher overall use safety;

3. the utility model discloses a design of high-low pressure room, especially the low-pressure chamber that is cylindric cavity do benefit to and hold in the palm the even thrust of formation to the bullet.

Drawings

FIG. 1 is a schematic structural view of a projectile interlocking type antiriot kinetic energy projectile of the present invention;

FIG. 2 is a schematic perspective view of a projectile holder 7 of the interlocking type antiriot kinetic energy projectile of the present invention;

fig. 3 is a schematic perspective view of the sponge projectile 8 and the interlocking mechanism 9 in the interlocking riot-resistant kinetic-energy projectile of the present invention after being unfolded.

In the figure: 1. the bullet comprises a bullet shell, 2 parts of primer, 3 parts of high-pressure chamber, 4 parts of propellant powder, 5 parts of fire transfer hole, 6 parts of low-pressure chamber, 7 parts of bullet holder, 7-1 parts of bullet holder, 7-2 parts of bottom holder, 7-2 parts of slotted side wall, 8 parts of sponge bullet, 9 parts of interlocking mechanism, 9-1 parts of interlocking belt, 9-2 parts of lantern ring, 10 parts of sealing pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a projectile interlocking type anti-riot kinetic energy projectile comprises a projectile shell 1, a primer 2, a high pressure chamber 3, a propellant powder 4, a fire transfer hole 5, a low pressure chamber 6, a projectile support 7, a support bottom 7-1, a slotted side wall 7-2, a sponge projectile 8, an interlocking mechanism 9, an interlocking belt 9-1, a lantern ring 9-2 and a sealing pad 10; the method is characterized in that: the primer 2 is riveted at the axle center of the bottom end face of the cartridge case 1, the primer 2 is a mechanical impact type primer, the upper side of the primer 2 is provided with a high-pressure chamber 3 in a bowl shape, the inside of the high-pressure chamber 3 is filled with propellant powder 4, the axle center of the upper end face of the high-pressure chamber 3 is provided with a fire transfer hole 5, the upper side of the fire transfer hole 5 is provided with a low-pressure chamber 6 in a cylindrical cavity, the upper side of the low-pressure chamber 6 is provided with a cartridge support 7, the inside of the cartridge support 7 is filled with three pieces of sponge pellets 8 vertically, the three pieces of sponge pellets 8 are locked into a whole through an interlocking mechanism 9, the upper side of the sponge pellet on the uppermost layer is abutted to a sealing pad 10, and the sealing pad 10.

In this embodiment, the cartridge case 1 is integrally formed by pressing a stainless steel material, the inner diameter of the cartridge case 1 is 38mm, and the high-pressure chamber 3, the fire transfer hole 5 and the low-pressure chamber 6 are fixing structures reserved in the processing process of the cartridge case 1.

In this embodiment, the fire transmission holes 5 are sealed by hot melt adhesive, when assembling, the fire transmission holes 5 are sealed by the hot melt adhesive, after the hot melt adhesive is cooled, the propellant powder 4 is filled, and then the primer 2 is assembled.

As shown in fig. 2, the projectile holder 7 is made of polyimide high-temperature-resistant engineering plastics, the projectile holder 7 includes a holder bottom 7-1 and a slotted side wall 7-2, the thickness of the holder bottom 7-1 is 5mm, the holder bottom 7-1 can effectively prevent burning of gunpowder gas generated by burning of the propellant 4 to the sponge projectile 8, the thickness of the slotted side wall 7-2 is 1.5mm, the number of the slotted side wall 7-2 is 6, the 6 holder petals are distributed in a circumferential array manner along a central axis of the projectile holder 7, and a preset fracture groove is arranged at a connection position of the holder bottom 7-1 and the slotted side wall 7-2.

In this embodiment, the bullet holder 7 wraps three sponge bullets 8 inside, and after being pushed out of the muzzle of the riot gun, the slotted side wall 7-2 of the bullet holder 7 is broken at the preset breaking groove under the action of air resistance, so that the bullet holder 7 is forced to be separated from the sponge bullets 8, and then the three sponge bullets 8 are unfolded.

With reference to fig. 1 and 3, the sponge bullet 8 is a cylindrical structure with rounded corners arranged at the upper end line and the lower end line, and the sponge material is cylindrical with rounded corners, so that the sponge bullet 8 is not easy to cause penetrating injury and excessive scratch to a target, and the middle of the outer side of the side wall of the sponge bullet 8 is provided with a concave groove.

As shown in fig. 3, the interlocking mechanism 9 is integrally made of high-strength rubber, the interlocking mechanism 9 includes three interlocking belts 9-1 and three lantern rings 9-2, the three lantern rings 9-2 are sleeved in the concave grooves on the side walls of the sponge shots 8, the three sponge shots 8 are acted by the interlocking mechanism 9 and are relatively fixed in position, so that the impact point distribution is determined not to be too large, and the probability of accidentally hitting a target fragile part is small.

In this embodiment, the side end face of the sealing pad 10 is bonded and fixed to the inner wall of the cartridge case 1 by 914 glue, and when shooting, the 914 glue between the side end face of the sealing pad 10 and the inner wall of the cartridge case 1 is damaged by the impact force of the bullet holder 7 and the sponge bullet 8, so that the sealing of the cartridge case 1 is released, and the bullet holder 7 and the sponge bullet 8 are released.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. A projectile interlocking type anti-riot kinetic energy projectile comprises a projectile shell (1), a primer (2), a high-pressure chamber (3), a propellant powder (4), a fire transfer hole (5), a low-pressure chamber (6), a projectile support (7), a support bottom (7-1), a slotted side wall (7-2), a sponge projectile (8), an interlocking mechanism (9), an interlocking belt (9-1), a lantern ring (9-2) and a sealing pad (10); the method is characterized in that: the fire at the end (2) riveting is in shell case (1) bottom end face axle center department, fire at the end (2) is mechanical striking formula fire at the end, fire at the end (2) upside is provided with hyperbaric chamber (3) of bowl form, hyperbaric chamber (3) inside loads propellant powder (4), hyperbaric chamber (3) up end axle center department is provided with biography fire hole (5), it is provided with low-pressure chamber (6) that are cylindric cavity to pass fire hole (5) upside, low-pressure chamber (6) upside is provided with bullet support (7), three pieces of sponge shot (8) are placed to bullet support (7) inside loading is vertical, three pieces of sponge shot (8) are locked as a whole through interlocking mechanism (9), superiors' sponge shot (8) upside is supported and is leaned on and is sealed pad (10), seal pad (10) are used for sealed shell case (1).

2. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: the cartridge case (1) is integrally formed by pressing stainless steel materials, and the inner diameter of the cartridge case (1) is 38 mm.

3. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: the fire transmission holes (5) are sealed through hot melt adhesive.

4. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: the bullet holds in the palm (7) and is made by the resistant high temperature engineering plastics processing of polyimide, bullet holds in the palm (7) including holding in the palm end (7-1) and fluting lateral wall (7-2), the thickness that holds in the palm end (7-1) is 5mm, the thickness of fluting lateral wall (7-2) is 1.5mm, fluting lateral wall (7-2) hold in the palm the quantity of lamella to be 6, 6 hold in the palm the lamella and be circumference array distribution along the axis that the bullet held in the palm (7), hold in the palm end (7-1) and fluting lateral wall (7-2) junction and set up predetermined rupture tank.

5. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: sponge shot (8) are the cylindricality structure that the lower extreme line set up the fillet about being, sponge shot (8) lateral wall outside middle part is provided with concave groove.

6. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: the interlocking mechanism (9) is integrally processed and manufactured by high-strength rubber, the interlocking mechanism (9) comprises three interlocking belts (9-1) and three lantern rings (9-2), and the three lantern rings (9-2) are sleeved in the concave grooves in the side walls of the sponge shots (8).

7. A projectile interlocking riot kinetic energy projectile as defined in claim 1, further comprising: the side end face of the sealing pad (10) is bonded and fixed with the inner wall of the cartridge case (1) through 914 glue.

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