CN116659301A - Continuous excitation multi-constraint bomb structure and riot generator - Google Patents

Abstract

The invention discloses a continuous excitation multi-constraint bomb structure, which relates to the technical field of law enforcement equipment and comprises a main shell and a plurality of auxiliary bomb structures, wherein the auxiliary bomb structures are arranged in the main shell: a restraining projectile, primer, and conductive assembly; the rear end of the main shell can be arranged on the riot generator main body, and the front end of the main shell is provided with a plurality of excitation channels; the restraining projectile bodies are in one-to-one correspondence with the excitation channels, and each excitation channel is internally provided with a restraining projectile body; the primer corresponds to the constraint projectile bodies one by one, the rear end of each constraint projectile body is provided with a primer, and the primer is provided with an arc trigger point; the minimum distance from the arc trigger point on the primer to the conductive component is the excitation distance of the primer, the excitation distances of any two primers are different, and when the conductive component is electrified, the primers can be sequentially excited according to the sequence of the excitation distances from small to large. The invention also discloses a riot making device which comprises a riot making device main body and the continuous excitation multi-constraint bomb structure. The invention can realize continuous firing of multiple restrained bullets and improve the riot control effect.

Description

Continuous excitation multi-constraint bomb structure and riot generator

Technical Field

The invention relates to the technical field of law enforcement equipment, in particular to a continuously-excited multi-constraint bomb structure and a riot generator.

Background

The electric shock gun can fire a plurality of functional bullets such as electric shock bullets, constraint bullets, chilli bullets and the like; the constraint bomb is mainly applied to the condition of low conflict level, and does not cause great pain to a human body.

However, the conventional constraint bullets are single-shot constraint bullets, and when the single-shot constraint bullets are not hit or are askew after being fired, the situation that the reality problem is not solved easily occurs.

Accordingly, it is desirable to provide a multiple constraint cartridge configuration that can be fired continuously.

Disclosure of Invention

The invention aims to provide a continuous excitation multi-constraint bomb structure and a riot control device, so as to solve the problems in the prior art, realize continuous firing of multiple constraint bombs and improve riot control effect.

In order to achieve the above object, the present invention provides the following solutions:

the invention provides a continuously excited multi-constraint bomb structure, comprising:

the rear end of the main shell can be mounted on the riot generator main body, and the front end of the main shell is provided with a plurality of excitation channels; and, mounted within the main housing:

the restraining projectile bodies are in one-to-one correspondence with the excitation channels, and each excitation channel is internally provided with one restraining projectile body;

the primer corresponds to the constraint projectile bodies one by one, the rear end of each constraint projectile body is provided with one primer, and the primer is provided with an arc trigger point;

the minimum distance from the arc trigger point on the primer to the conductive component is the excitation distance of the primer, the excitation distances of any two primers are different, and when the conductive component is electrified, the primers can be excited sequentially from small to large according to the sequence of the excitation distances.

Preferably, any one of the restraining elastomers comprises two flying needle assemblies, and the rear ends of the two flying needle assemblies are connected through a connecting rope;

any excitation channel comprises two sub-channels, and two flying needle assemblies of the restraining elastomer are respectively arranged in the two sub-channels; the rear end openings of the two sub-channels are arranged close to the primer, and when the primer corresponding to the restraining elastomer is excited, released energy can be transmitted to the flying needle assemblies in the two sub-channels so as to excite the flying needle assemblies.

Preferably, two of said sub-channels form a V-shaped excitation channel.

Preferably, the flying needle assembly comprises a flying needle and a needle cylinder, wherein the flying needle is arranged at the front end of the needle cylinder, and the rear end of the needle cylinder is connected with the connecting rope.

Preferably, the continuous excitation multi-constraint bullet structure further comprises excitation pipes, the excitation pipes are in one-to-one correspondence with the flying needle assemblies, the rear ends of the excitation pipes are arranged in the corresponding excitation channels, and the flying needle assemblies are arranged in the corresponding excitation pipes; when the primer corresponding to the flying needle component is excited, the released energy can push the flying needle component to move from back to front along the excitation tube so as to realize the excitation of the flying needle component.

Preferably, a primer excitation cavity is arranged in the main shell, the front end of the primer excitation cavity is provided with the excitation channels, the rear end of the primer excitation cavity is provided with primer channels, the primer channels are in one-to-one correspondence with the excitation channels, and the rear ends of the excitation channels are communicated with the corresponding primer channels; the primer is arranged in the primer channel, and after the primer is excited, the primer can move backwards along the primer channel.

Preferably, a conductive part is arranged at the rear end of the primer, the rear end surface of the conductive part forms the arc trigger point, and the side wall of the conductive part is subjected to insulation treatment.

Preferably, the conductive component is a conductive elastic sheet, and a plurality of through holes are formed in the conductive elastic sheet and correspond to the primer one by one; when the primer is excited, an arc trigger point on the primer can pass through the corresponding through hole backwards.

Preferably, the primer excitation cavity is a metal cavity, the primer can be connected with one of the positive electrode or the negative electrode of the power supply through the metal cavity, the conductive elastic sheet can be connected with the other electrode of the power supply, and the metal cavity is insulated from the conductive elastic sheet.

The invention also provides an storm making device which comprises a main body of the storm making device and the continuous excitation multi-constraint bomb structure.

Compared with the prior art, the invention has the following technical effects:

according to the invention, the plurality of constraint elastomers are arranged in the main shell, the excitation distances of the primer of any two constraint elastomers are different, and when the conductive assembly is electrified, the primer can be sequentially excited along the sequence from small to large in the excitation distance, so that each constraint elastomer can be sequentially excited, the continuous excitation of multiple constraint elastomers is realized, the risk caused by the fact that a single constraint elastomer does not hit a target is avoided, and the explosion-proof effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a perspective view of a continuously excited multi-confinement structure in accordance with an embodiment of the present invention;

FIG. 2 is an exploded view of a continuously excited multi-confinement structure in accordance with an embodiment of the present invention;

FIG. 3 is a schematic longitudinal section of a continuously excited multi-confinement structure in accordance with an embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a continuously excited multi-confinement structure in accordance with an embodiment of the present invention.

In the figure: 1-main shell, 2-elastomer blocking cover, 3-flying needle assembly, 301-flying needle, 302-excitation tube, 303-needle cylinder, 4-primer excitation cavity, 5-primer, 6-cavity cover, 7-base, 8-conductive spring piece, 9-insulating sheet, 10-positive electrode interface and 11-negative electrode interface.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide a continuous excitation multi-constraint bomb structure and a riot control device, so as to solve the problems in the prior art, realize continuous firing of multiple constraint bombs and improve riot control effect.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

Example 1

As shown in fig. 1 to 4, this embodiment provides a continuously excited multi-constraint bomb structure, which mainly includes: a main casing 1, and, mounted in the main casing 1: a restraining projectile, primer 5 and conductive assembly; wherein, the rear end of the main housing 1 can be mounted on the main body of the riot generator, and the front end of the main housing 1 is provided with a plurality of excitation channels; the restraining projectile bodies are in one-to-one correspondence with the excitation channels, and each excitation channel is internally provided with one restraining projectile body; the primer 5 corresponds to the constraint projectile bodies one by one, the back end of each constraint projectile body is provided with one primer 5, the corresponding constraint projectile body can be excited through the primer 5, and the primer 5 is provided with an arc trigger point; the minimum distance from the arc trigger point on the primer 5 to the conductive assembly is the excitation distance of the primer 5, the excitation distances of any two primers 5 are different, when the conductive assembly is electrified, the primers 5 can be sequentially excited according to the sequence of the excitation distances from small to large, so that each constraint elastomer can be sequentially excited, continuous excitation of multiple constraint elastomers is realized, risks caused by no hit of a single constraint elastomer on a target are avoided, and the explosion-suppression effect is improved.

It should be noted that, when the conductive component is electrified, the conductive component is electrically connected with one of the positive electrode or the negative electrode of the power supply, and the primer 5 is electrically connected with the other electrode of the power supply, after the power supply is connected, an electric arc can be generated between an electric arc trigger point on the primer 5 and the conductive component, so that the primer 5 is excited, and all the primers 5 are sequentially excited according to the sequence of the excitation distance from small to large, so that the continuous excitation of the restrained elastomer is realized.

It should be further noted that, in this embodiment, the "rear end" refers to the end near the main body of the storm making device after the continuously excited multi-constraint bomb structure is installed on the main body of the storm making device, and the "front end" refers to the other end opposite to the "rear end".

In the embodiment, an opening is arranged at the front end of a main shell 1, and an elastomer blocking cover 2 is arranged at the opening; the elastomer blocking cover 2 can be fixed on the main shell 1 by adopting a buckle or other modes, so that the exposure of the restraining elastomer can be prevented, the attractive effect is improved, and dust can be prevented from entering the main shell 1; in addition, some marks can be added on the elastomer blocking cover 2 in the later stage, so that a propaganda effect or a warning effect and the like can be realized. It should be noted that, when the restraining projectile is excited, the corresponding projectile blocking cover 2 can be broken, so that the restraining projectile is excited out of the main casing 1.

In this embodiment, any one of the restraining elastomers preferably includes two flying probe assemblies 3, and the rear ends of the two flying probe assemblies 3 are connected by a connecting rope; when the restraining projectile body is excited, the rear ends of the two flying needle assemblies 3 fly out together with the connecting rope, and when the connecting rope acts on the target body, the two flying needle assemblies 3 respectively drive the two ends of the connecting rope to start winding the target due to acting force, and after winding is completed, the flying needle assemblies 3 hook the target, so that the restraining purpose is finally realized. The above working principle of the constraint projectile is mature prior art in the field, and will not be described in detail in this embodiment; it should be noted that the front ends of the two needle assemblies 3 should be far away from each other so that an included angle is formed between the two needle assemblies 3, so as to achieve constraint on the target.

In this embodiment, the restraining projectile body may further be provided with other numbers of flying needle assemblies 3 according to specific working requirements, for example, four or six flying needle assemblies 3 are provided, so long as the rear ends of all the flying needle assemblies 3 are guaranteed to be connected through a connecting rope, and target restraint can be achieved.

In this embodiment, the number of the restraining projectiles may be selected according to specific working requirements, preferably two, or three or four restraining projectiles may be further provided.

In this embodiment, any one of the excitation channels includes two sub-channels, the sub-channels are arranged in one-to-one correspondence with the flying needle assemblies 3, and the two flying needle assemblies 3 of the restraining projectile body are respectively installed in the two sub-channels; the rear end openings of the two sub-channels are both close to the primer 5, and when the primer 5 corresponding to the restraining elastomer is excited, released energy can be transferred to the flying needle assembly 3 in the sub-channels along the two sub-channels so as to excite the flying needle assembly 3.

In a preferred embodiment, as shown in fig. 4, two sub-channels form a V-shaped excitation channel, two needle assemblies 3 of the same elastomer are similarly V-shaped, and the angle between the two needle assemblies 3 is preferably an acute angle.

In this embodiment, the flying needle assembly 3 includes a flying needle 301 and a needle cylinder 303, the flying needle 301 is assembled at the front end of the needle cylinder 303, and the rear end of the needle cylinder 303 is connected with the connecting rope; specifically, the needle cylinder 303 can fix the flying needle 301, the flying needle 301 can be mounted on the front end of the needle cylinder 303 by welding or bonding, and the rear ends of the two needle cylinders 303 are respectively connected with two ends of the connecting rope.

In this embodiment, the flying needle 301 is preferably a multi-claw flying needle, and through various tests, the multi-claw flying needle is easier to catch on a target object, and the needle tip of the multi-claw flying needle is provided with barbs to prevent falling off after catching the target object; more preferably, the flying needle 301 is a four-jaw flying needle.

In this embodiment, the continuous excitation multi-constraint bomb structure further includes excitation tubes 302, where the excitation tubes 302 are in one-to-one correspondence with the flying probe assemblies 3, the rear ends of the excitation tubes 302 are installed in the sub-channels of the corresponding excitation channels, and the flying probe assemblies 3 are disposed in the corresponding excitation tubes 302, where each sub-channel is installed with one excitation tube 302; when the primer 5 corresponding to the flying needle assembly 3 is excited, the released energy can push the flying needle assembly 3 to move from back to front along the excitation tube 302 so as to realize the excitation of the flying needle assembly 3.

In this embodiment, the excitation tube 302 is a metal tube, preferably an aluminum tube, and the rear end of the excitation tube 302 may be assembled in the main housing 1 by means of clamping or welding, so as to prevent the excitation tube 302 from moving when the restraining projectile body is excited, and improve the connection firmness between the excitation tube 302 and the main housing 1; furthermore, the front end of the excitation tube 302 extends out of the corresponding sub-channel, and the connecting rope can be wound on the outer wall of the front end of the excitation tube 302, so that the winding space is increased.

In this embodiment, a primer excitation cavity 4 is disposed in the main casing 1, a V-shaped excitation channel is disposed at the front end of the primer excitation cavity 4, a primer channel is disposed at the rear end of the primer excitation cavity, the primer channels are in one-to-one correspondence with the excitation channels, and the rear ends of the excitation channels are communicated with the corresponding primer channels to form a Y-shaped cavity; the primer 5 is installed in the primer channel, when the primer 5 is excited, energy can be released along the V-shaped excitation channel to excite the flying needle assembly 3, and the primer 5 can move backwards along the primer channel.

In this embodiment, the primer excitation cavity 4 is preferably a metal cavity, so as to improve the overall strength, and better absorb the energy released when the primer 5 is excited.

In this embodiment, the rear end of the primer 5 is provided with a conductive part, the rear end surface of the conductive part forms the arc trigger point, and the side wall of the conductive part is subjected to insulation treatment (an insulation layer such as an insulating tape is externally arranged or an insulation coating is sprayed, etc.), wherein the conductive part is preferably a cylindrical conductive part, and the diameter of the conductive part is smaller than that of the primer 5; and the rear end of the primer excitation cavity 4 is provided with a cavity cover 6, and the cavity cover 6 is provided with a through hole which can be used for a conductive part to pass through and block the primer 5 to pass through, so that the effect of resisting the recoil force of the primer 5 is realized, and the energy released backwards after the primer 5 is excited can be resisted. The material of the chamber cover 6 is preferably a metal material.

In this embodiment, the conductive component is preferably a conductive elastic piece 8, a base 7 is further disposed in the main housing 1, the base 7 is located at the rear end of the primer excitation cavity 4, and the conductive elastic piece 8 is disposed in the base 7; the conductive elastic sheet 8 is provided with a plurality of through holes, and the through holes are in one-to-one correspondence with the primer 5; when the primer 5 is excited, the arc trigger point on the primer 5 can pass through the corresponding through hole backwards, at this time, the through hole of the conductive spring piece 8 is located at an insulating position on the side wall (with threads) of the conductive part, and the arc trigger point is far away from the conductive spring piece 8, so that the secondary excitation is prevented, and the next excitation is ensured to be the other primer 5.

In this embodiment, since the primer excitation cavity 4 is a metal cavity, the primer 5 may be connected to one of the positive electrode and the negative electrode of the power supply through the metal cavity, the conductive elastic sheet 8 may be connected to the other electrode of the power supply, and the metal cavity is insulated from the conductive elastic sheet 8.

As a preferred embodiment, as shown in fig. 3, a positive electrode interface 10 is arranged on one side of the main casing 1, the primer excitation cavity 4 is electrically connected with a positive electrode of a power supply through the positive electrode interface 10, and after positive electrode current is input, the primer excitation cavity 4, the primer 5 and the conductive part sequentially pass through and then reach the vicinity of the conductive elastic sheet 8; the other side of the main housing 1 is provided with a cathode interface 11, the cathode interface 11 is opposite to the anode interface 10, and can be electrically connected with a power supply cathode, the cathode interface 11 is electrically connected with the conductive elastic sheet 8 through a conductive piece (copper foil or copper wire, etc.), and when cathode current is input, the cathode current is transmitted to the conductive elastic sheet 8 through the conductive piece.

In this embodiment, an insulating sheet 9 is provided between the primer excitation cavity 4 and the conductive member for insulation, and an insulating sheet 9 is also provided between the end of the conductive spring sheet 8 away from the conductive member and the inner wall of the main housing 1 for insulation.

The working principle of the continuously excited multi-constraint bomb structure in this embodiment is as follows:

when the continuously excited multi-constraint bomb structure is arranged on the storm-making device main body, the storm-making device main body provides high-voltage current for the two constraint bomb bodies; as shown in fig. 3, the positive current sequentially passes through the primer excitation cavity 4, the primer 5 and the conductive part, and then reaches the vicinity of the conductive elastic sheet 8; and the negative current is transmitted to the conductive spring plate 8 through the conductive member. Because the minimum distances from the arc trigger points of the primer 5 of the two restraining elastomers to the conductive elastic sheet 8 are different (the excitation distance of the primer 5 below is smaller than the excitation distance of the primer 5 above), when high-voltage current exists, the primer 5 below is excited firstly, because the primer 5 can deviate in the opposite excitation direction after excitation due to recoil force, the part of the primer 5 in the through hole of the conductive elastic sheet 8 after deviation is the insulating position on the side wall of the conductive part, the distance from the arc trigger point to the conductive elastic sheet 8 becomes far, and at the moment, the distance from the arc trigger point on the primer 5 above to the conductive elastic sheet 8 is closer, so that the primer 5 above is excited preferentially after power is supplied again.

When the primer 5 is activated, as shown in fig. 4, the generated energy acts on the corresponding two syringes 303, the two syringes 303 form an acute angle, the strong energy pushes the syringes 303 to drive the flying needle 301 to break the elastomer blocking cover 2, and when the flying needle 301 flies out, the tail of the syringes 303 flies out together with the connecting rope. When the connecting rope acts on the target, the two ends of the connecting rope start winding the target due to acting force, and then the flying needle 301 hooks the target, so that the constraint purpose is finally achieved.

Example two

The present embodiment provides an storm making device, including a storm making device main body and the continuously excited multi-constraint bomb structure described in the first embodiment, wherein the continuously excited multi-constraint bomb structure is mounted on the storm making device main body.

The principles and embodiments of the present invention have been described in detail with reference to specific examples, which are provided to facilitate understanding of the method and core ideas of the present invention; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (10)

1. A continuously excited multi-constraint bomb structure, characterized in that: comprising the following steps:

the rear end of the main shell can be mounted on the riot generator main body, and the front end of the main shell is provided with a plurality of excitation channels; and, mounted within the main housing:

the restraining projectile bodies are in one-to-one correspondence with the excitation channels, and each excitation channel is internally provided with one restraining projectile body;

the primer corresponds to the constraint projectile bodies one by one, the rear end of each constraint projectile body is provided with one primer, and the primer is provided with an arc trigger point;

the minimum distance from the arc trigger point on the primer to the conductive component is the excitation distance of the primer, the excitation distances of any two primers are different, and when the conductive component is electrified, the primers can be excited sequentially from small to large according to the sequence of the excitation distances.

2. The continuously excited multi-confinement structure of claim 1, wherein: any one of the restraining elastic bodies comprises two flying needle assemblies, and the rear ends of the two flying needle assemblies are connected through a connecting rope;

any excitation channel comprises two sub-channels, and two flying needle assemblies of the restraining elastomer are respectively arranged in the two sub-channels; the rear end openings of the two sub-channels are arranged close to the primer, and when the primer corresponding to the restraining elastomer is excited, released energy can be transmitted to the flying needle assemblies in the two sub-channels so as to excite the flying needle assemblies.

3. The continuously excited multi-confinement structure of claim 2, wherein: the two sub-channels form a V-shaped excitation channel.

4. The continuously excited multi-confinement structure of claim 2, wherein: the flying needle assembly comprises a flying needle and a needle cylinder, wherein the flying needle is arranged at the front end of the needle cylinder, and the rear end of the needle cylinder is connected with the connecting rope.

5. The continuously excited multi-constraint bomb structure according to claim 4, wherein: the continuous excitation multi-constraint bullet structure further comprises excitation pipes, the excitation pipes are in one-to-one correspondence with the flying needle assemblies, the rear ends of the excitation pipes are arranged in the corresponding excitation channels, and the flying needle assemblies are arranged in the corresponding excitation pipes; when the primer corresponding to the flying needle component is excited, the released energy can push the flying needle component to move from back to front along the excitation tube so as to realize the excitation of the flying needle component.

6. The continuously excited multi-confinement structure according to any one of claims 1-5, wherein: the main shell is internally provided with a primer excitation cavity, the front end of the primer excitation cavity is provided with an excitation channel, the rear end of the primer excitation cavity is provided with primer channels, the primer channels are in one-to-one correspondence with the excitation channels, and the rear ends of the excitation channels are communicated with the corresponding primer channels; the primer is arranged in the primer channel, and after the primer is excited, the primer can move backwards along the primer channel.

7. The continuously fired multiple constraint pellet structure of claim 6, wherein: the rear end of the primer is provided with a conductive part, the rear end face of the conductive part forms the arc trigger point, and the side wall of the conductive part is subjected to insulation treatment.

8. The continuously fired multiple constraint pellet structure of claim 7, wherein: the conductive component is a conductive elastic sheet, a plurality of through holes are formed in the conductive elastic sheet, and the through holes correspond to the primer one by one; when the primer is excited, an arc trigger point on the primer can pass through the corresponding through hole backwards.

9. The continuously fired multiple constraint bomb structure according to claim 8, wherein: the primer excitation cavity is a metal cavity, the primer can be connected with one of the positive electrode or the negative electrode of the power supply through the metal cavity, the conductive elastic sheet can be connected with the other electrode of the power supply, and the metal cavity is insulated from the conductive elastic sheet.

10. A riot making device, characterized by: comprising a storm body as claimed in any one of claims 1-9 for a continuously fired multiple-restraint projectile structure.