CN112857153B

CN112857153B - Multi-sound safety detonation bomb

Info

Publication number: CN112857153B
Application number: CN202011626520.5A
Authority: CN
Inventors: 周国民; 陈景泰; 许周毅; 钟慧澜
Original assignee: Zhejiang Police College
Current assignee: Zhejiang Police College
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2022-08-30
Anticipated expiration: 2040-12-31
Also published as: CN112857153A

Abstract

The invention relates to the field of police equipment, and discloses a multi-sound safety detonation bomb which comprises a shell, a first detonation device and a safety device, wherein a multi-sound detonation component comprises a first detonation part and a second detonation part penetrating through the first detonation part, the first detonation part comprises an annular first detonation cavity and a glittering agent positioned in the first detonation cavity, the second detonation part comprises an annular second detonation cavity and a glittering agent positioned in the second detonation cavity, the central axes of the first detonation cavity and the second detonation cavity are superposed, the first detonation cavity is provided with a pop-up component, the pop-up component comprises a tension spring and a burnout binding rope, one end of the shell, which is far away from the first detonation device, is provided with a dodging port, a part of the detonation cavity extends out of the dodging agent, the first detonation device is connected with the glittering agent in the first detonation cavity, after the first detonation device ignites the glittering agent in the first detonation cavity, the glittering agent burns out the binding rope, the first detonation cavity is under the action of the tension spring, one part of the detonation cavity is moved out of the avoidance port, and the glittering agent in the detonation cavity II is continuously ignited.

Description

Multi-sound safety detonation bomb

Technical Field

The invention relates to the field of police equipment, in particular to a multi-sound safety detonation bomb.

Background

The detonation bomb is used as an important ammunition for police in the anti-riot operation, has great effect in the non-war military operations such as outburst and anti-terrorism in the operation, and mainly generates strong light and strong sound through explosion to realize the shock stunning and dispersion to individuals or crowds. Most of the existing detonation bombs are single-sound.

The safe multi-ring detonation bomb with the application number of CN201820641575.5 describes a multi-ring detonation bomb, the structure relates to detonation tubes filled with a glittering agent, 6 to 10 detonation tubes are arranged in a bomb body and are arranged in an annular shape to sequentially detonate the detonation tubes, the arrangement mode has the defects that a single detonation tube can only glitter towards one direction in the detonation process, if the detonation tube which is detonated firstly faces towards the ground or an obstacle, the ground or the obstacle can shield the glittering, criminal reaction time is given, and when the subsequent detonation tubes explode, the detonation bomb can be avoided in time, and the mode that the detonation tubes are arranged in an annular shape and are sequentially detonated has the problem in this aspect.

Disclosure of Invention

The invention provides a multi-sound safety detonation bomb aiming at the defects that in the prior art, detonation bombs which are annularly arranged and sequentially detonated cannot be enemy due to the first detonation, and the detonation of a subsequent detonation tube which can be enemy escapes or is avoided.

In order to solve the technical problem, the invention is solved by the following technical scheme: a multi-sound safety detonation bomb comprises a shell, a first ignition device and a safety device, wherein the first ignition device and the safety device are connected to the shell, a multi-sound detonation component is arranged in the shell and comprises an annular first detonation part and a second detonation part penetrating through the first detonation part, the first detonation part comprises an annular first detonation cavity and a glittering agent in the first detonation cavity, the second detonation part comprises an annular second detonation cavity and a glittering agent in the second detonation cavity, the central axes of the first detonation cavity and the second detonation cavity are coincident, a popup component is arranged on the first detonation cavity and comprises a tension spring and a binding rope which can be burnt, a fixing plate is connected in the shell, the second detonation cavity is connected with the fixing plate, one end of the tension spring is connected with one end of the first detonation cavity, the other end of the tension spring is connected with one end of the second detonation cavity, which is far away from the first ignition device, a dodging port is arranged at one end of the shell, which is far away from the first ignition device, the part of the first earthquake explosion cavity far away from the first ignition device extends out of the avoidance port, one end of the binding rope is connected with the fixing plate, the other end of the binding rope is connected with the end of the first earthquake explosion cavity far away from the first ignition device, the first ignition device is connected with the glittering agent in the first earthquake explosion cavity, after the glittering agent in the first earthquake explosion cavity is ignited by the first ignition device, the glittering agent burns off the binding rope, the first earthquake explosion cavity is under the action of the tension spring, one part of the earthquake explosion cavity is moved out of the avoidance port, and the glittering agent in the second earthquake explosion cavity is continuously ignited.

By adopting the scheme, the first ignition device ignites the glittering agent in the first earthquake explosion cavity through the chemical lead wire, the glittering agent is burnt to emit light, the glittering agent in the first earthquake explosion cavity burns while the tying rope is burnt, the first earthquake explosion cavity loses the tying force, the first earthquake explosion cavity is popped out through the avoiding opening under the action of the tension spring, when the first earthquake explosion cavity is popped out, the glittering agent in the second earthquake explosion cavity is opposite to the through hole of the main shell, the glittering agent in the second earthquake explosion cavity is continuously ignited, and therefore light and sound emitted by the glittering agent in the second earthquake explosion cavity can be discharged from the through hole of the main shell.

Preferably, an avoiding groove is formed in the second earthquake explosion cavity, a protection plate is arranged in the avoiding groove, the section of the protection plate is C-shaped, a C-shaped opening of the protection plate is formed in the direction away from the second earthquake explosion cavity, and the pop-up assembly is located in the protection plate.

By adopting the scheme, the protection plate can be used for isolating the popping assembly from the glittering agent of the second clamp body.

Preferably, the secondary ignition device is connected in the protection plate and comprises a firing pin, a primer and a chemical lead, the firing pin is connected to the first detonation chamber, the primer is connected to the second detonation chamber, the firing pin is opposite to the primer, and the chemical lead is connected with the glittering agent in the second detonation chamber.

By adopting the scheme, after the first detonation chamber is ejected, the firing pin of the secondary ignition device is driven to collide with the primer, the primer ignites the chemical lead of the secondary ignition device, the chemical lead of the secondary ignition device is communicated with the glittering agent in the second detonation chamber, and the chemical lead of the secondary ignition device ignites the glittering agent in the second detonation chamber, so that light and sound emitted by the glittering agent in the second detonation chamber can be discharged from the through hole of the main shell.

Preferably, the first detonation chamber and the second detonation chamber are both connected with drag hooks, and two ends of the tension spring are respectively connected with the two drag hooks.

By adopting the scheme, the draw hook is convenient for the installation of the tension spring.

Preferably, the shell comprises a main shell with an opening at one end and a turncap body connected to the opening of the main shell, and the avoiding opening is formed in one end, far away from the opening, of the main shell.

Adopt above-mentioned scheme, the installation of the first detonation portion of being convenient for and the second detonation portion that the spiral cap body and the main casing body are connected.

Preferably, one end of the main shell body, which is provided with the avoidance port, is connected with a rubber sealing cap.

Adopt above-mentioned scheme, the rubber seal cap can be used to avoid the sealed of mouth.

Preferably, the first detonation portions can be provided with a plurality of rings, the diameters of the first detonation portions are gradually decreased in sequence, the first detonation portions are sleeved in sequence according to the diameters, and the ejecting assembly and the secondary ignition device are connected between the first detonation portions.

With the above arrangement, the plurality of first knocking portions can be sounded.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: the first ignition device ignites the glittering agent in the first detonation cavity through the chemical lead wire, the glittering agent is burnt and shines, the glittering agent in the first detonation cavity burns and simultaneously burns off the binding rope, the binding rope burns off, the first detonation cavity loses binding force, the first detonation cavity is popped out through the avoiding opening under the action of the tension spring, the rubber sealing cap is ejected out when the first detonation cavity is popped out, the glittering agent in the second detonation cavity is opposite to the through hole of the main shell, the first detonation cavity drives the firing pin of the secondary ignition device to collide with the primer after being popped out, the primer ignites the chemical lead wire of the secondary ignition device, the chemical lead wire of the secondary ignition device is communicated with the glittering agent in the second detonation cavity, and the chemical lead wire of the secondary ignition device ignites the glittering agent in the second detonation cavity, so that light and sound emitted by the glittering agent in the second detonation cavity can be discharged from the through hole of the main shell.

Drawings

FIG. 1 is a schematic view of the overall structure of a multi-sound safety type detonation bomb;

FIG. 2 is an assembled cross-sectional view of a multi-sound safety detonation cartridge;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a partially enlarged view of fig. 2 at B.

The names of the parts indicated by the numerical references in the above figures are as follows: 1. a main housing; 2. screwing the cap body; 3. a first ignition device; 4. a safety device; 5. a first knocking section; 6. a second knocking section; 7. a first seismic explosion cavity; 8. a glitter agent; 9. a second seismic explosion cavity; 10. a fixing plate; 11. a tension spring; 12. tying a rope; 13. a protection plate; 14. connecting blocks; 15. pulling a hook; 17. avoiding the mouth; 18. a striker; 19. primer; 20. a rubber sealing cap; 21. and a through hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

The first embodiment is as follows:

a multi-sound safety detonation bomb firstly refers to figures 1-4, and comprises a shell, a first ignition device 3 and a safety device 4 which are connected on the shell, wherein the shell comprises a main shell 1 with an opening at one end and a cap screwing body 2 connected at the opening of the main shell 1, the cap screwing body 2 is in threaded connection with the main shell 1, the first ignition device 3 and the safety device 4 are both connected on the cap screwing body 2, the first ignition device 3 and the safety device 4 both adopt the prior art, the first ignition device 3 comprises a fire cap, a chemical lead wire for beating hit the head of beating of hitting the cap and with cap cooperation ignition hits and is connected with the torsional spring on beating the head, and safeties 4 hits safety pin and pin joint that head and cap body 2 were hit including the restriction and revolve the cap and go up the insurance handle, and the insurance pin is with the insurance handle pin joint during use, and this first ignition 3 and safeties 4 all adopt prior art not to give unnecessary details.

Referring to fig. 1 to 4, a multi-sound detonation assembly is arranged in a main housing 1, the multi-sound detonation assembly comprises an annular first detonation part 5 and a second detonation part 6 penetrating through the first detonation part 5, the first detonation part 5 comprises an annular first detonation chamber 7 and a glittering agent 8 in the first detonation chamber 7, the second detonation part 6 comprises an annular second detonation chamber 9 and a glittering agent 8 in the second detonation chamber 9, the glittering agents 8 in the first detonation chamber 7 and the second detonation chamber 9 are made of the same material as that of the conventional glittering bomb and are a mixture of aluminum powder and potassium perchlorate, the central axes of the first detonation chamber 7 and the second detonation chamber 9 are coincident, the first detonation chamber 7 is annular, the outer side surface of the first detonation chamber 7 facing the main housing 1 is provided with an annular groove, the glittering agent 8 in the first detonation chamber 7 is arranged in the annular groove and filled in an annular column shape, the second detonation chamber 9 is columnar and is arranged in the inner ring of the first detonation chamber 7, an annular groove is formed in the outer side surface, facing the main shell 1, of the detonation cavity II 9, a glittering agent 8 in the detonation cavity II 9 is located in the annular groove and filled in an annular column shape, a fixing plate 10 is connected to one side, facing the first ignition device 3, of the detonation cavity II 9 through threads, the fixing plate 10 is located on one side, facing the fire cap, of the first detonation part 5 and the second detonation part 7, the fixing plate 10 is clamped with the inner wall of the main shell 1, a step surface used for clamping the fixing plate 10 is arranged on the inner wall of the main shell 1, a popup component is arranged on the detonation cavity I7 and comprises a tension spring 11 and a tying rope 12 capable of being burnt off, an avoiding groove used for avoiding the popup component is formed in the detonation cavity II 9, the avoiding groove does not penetrate through two end surfaces of the detonation cavity II 9, a protection plate 13 is arranged in the avoiding groove, the popup component is located in the protection plate 13, the protection plate 13 is in a long strip shape, the section of the protection plate 13 is in a C shape, the C-shaped opening of the protection plate 13 is formed in a direction away from the detonation cavity II 9, a connecting block 14 is convexly arranged on one side, facing the first seismic explosion cavity 7, of the second seismic explosion cavity 9, the connecting block 14 is arranged in a protection plate 13, the connecting block 14 is arranged on one end, facing the first seismic explosion cavity 7, of the first seismic explosion cavity 2, a drag hook 15 is in threaded connection with one side, far away from the first seismic explosion cavity 2, of the second seismic explosion cavity 9, one end, far away from the second seismic explosion cavity 2, of the second seismic explosion cavity is also in threaded connection with the drag hook 15, two ends of a tension spring 11 are respectively connected with the two drag hooks 15, a yielding opening 17 is formed in one end, far away from the first seismic explosion cavity 2, of the main shell 1, one end, far away from the first seismic explosion cavity 2, of the first seismic explosion cavity 7 extends out of the yielding opening 17, one end of a binding rope 12 is bound with a fixing plate 10, the other end of the binding rope 12 is connected with one end, far away from the first seismic explosion cavity 2, the binding rope 12 is abutted to the glittering agent 8 of the first seismic explosion cavity, a secondary ignition device is connected in the protection plate 13, and the secondary ignition device comprises a firing pin 18, Primer 19 and chemical lead wire, firing pin 18 threaded connection is on connecting block 14, firing pin 18 is located threaded connection block 14 and keeps away from the spiral cap body 2 one side, primer 19 is connected in shake explosion cavity two 9 and keeps away from spiral cap body 2 one end, primer 19 sets up towards firing pin 18, firing pin 18 is relative with primer 19, secondary ignition's chemical lead wire is connected with the glittering agent 8 of shake explosion cavity two 9, ignition's chemical lead wire passes behind the fixed plate 10 and is connected with glittering agent 8 in shake explosion cavity one 7, main casing 1 body sets up and dodges the mouth 17 one end joint and is had rubber sealing cap 20, rubber sealing cap 20 can be used to seal and dodge mouth 17, be located main casing 1 and offer the through-hole 21 that a plurality of glittering agent 8 discharge sound and light after burning.

The first ignition device 3 ignites the glittering agent 8 in the first detonation cavity 7 through a chemical lead wire, the glittering agent 8 burns to emit light, the glittering agent 8 in the first detonation cavity 7 burns to simultaneously burn off the binding rope 12, the binding rope 12 burns off, the first detonation cavity 7 loses binding force, the first detonation cavity 7 is ejected through the avoidance port 17 under the action of the tension spring 11, and when the first detonation cavity 7 is ejected, ejecting the rubber sealing cap 20, wherein the glittering agent 8 of the first explosion cavity II 9 is opposite to the through hole 21 of the main shell 1, and after the first explosion cavity 7 is ejected, the firing pin 18 of the secondary ignition device is driven to collide with the primer 19, the primer 19 ignites the chemical lead of the secondary ignition device, the chemical lead of the secondary ignition device is communicated with the glittering agent 8 in the second detonation chamber 9, the chemical lead of the secondary ignition device ignites the glittering agent 8 in the second detonation chamber 9, so that the light and sound emitted from the glittering agent 8 of the second detonation chamber 9 can be discharged from the through hole 21 of the main casing 1.

The second embodiment:

the first detonation parts 5 can be provided with a plurality of first detonation parts 5, the plurality of first detonation parts 5 are annular, the diameters of the first detonation parts are sequentially reduced, the plurality of first detonation parts 5 are sequentially sleeved according to the diameters, the ejecting assembly and the secondary ignition device are connected among the plurality of first detonation parts 5, the chemical lead of the first ignition device 3 is connected with the glittering agent 8 of the first detonation part at the outermost side, and the chemical lead of the secondary ignition device matched with each first detonation part 5 is connected with the glittering agent 8 of the adjacent first detonation part at the inner side.

Claims

1. A multi-sound safety detonation bomb comprises a shell, a first ignition device (3) and a safety device (4) which are connected to the shell, and is characterized in that a multi-sound detonation component is arranged in the shell and comprises a first annular detonation part (5) and a second detonation part (6) penetrating through the first detonation part (5), the first detonation part (5) comprises a first annular detonation cavity (7) and a glittering agent (8) positioned in the first detonation cavity (7), the second detonation part (6) comprises a second annular detonation cavity (9) and a glittering agent (8) positioned in the second detonation cavity (9), central axes of the first detonation cavity (7) and the second detonation cavity (9) are coincident, a pop-up component is arranged on the first detonation cavity (7) and comprises a tension spring (11) and a binding rope (12) which can be burnt off, a fixing plate (10) is connected in the shell, the second earthquake explosion cavity (9) is connected with the fixing plate (10), one end of the tension spring (11) is connected with one end of the first earthquake explosion cavity (7) facing the first ignition device (3), the other end of the tension spring (11) is connected with one end of the second earthquake explosion cavity (9) far away from the first ignition device (3), one end of the shell far away from the first ignition device (3) is provided with a yielding port (17), one end part of the first earthquake explosion cavity (7) far away from the first ignition device (3) extends out of the yielding port (17), one end of the binding rope (12) is connected with the fixing plate (10), the other end of the binding rope (12) is connected with one end of the first earthquake explosion cavity (7) far away from the first ignition device (3), the first ignition device (3) is connected with the glittering agent (8) in the first earthquake explosion cavity (7), after the first ignition device (3) ignites the glittering agent (8) in the first earthquake explosion cavity (7), the binding rope (12) is burned off, and the first earthquake explosion cavity (7) is under the action of the tension spring (11), the first explosion chamber (7) is partially moved out of the avoidance port (17), and the glittering agent (8) in the second explosion chamber (9) is continuously ignited.

2. The multi-sound safety type detonation bomb according to claim 1, wherein an avoidance groove is formed in the second detonation cavity (9), a protection plate (13) is arranged in the avoidance groove, the section of the protection plate (13) is C-shaped, a C-shaped opening of the protection plate (13) is formed in a direction away from the second detonation cavity (9), and the ejection assembly is located in the protection plate (13).

3. A multi-sound safety type detonation bomb according to claim 1, characterised in that a secondary ignition device is connected in the protection plate (13), the secondary ignition device comprises a firing pin (18), a primer (19) and a chemical lead, the firing pin (18) is connected to the first detonation chamber (7), the primer (19) is connected to the second detonation chamber (9), the firing pin (18) is opposite to the primer (19), and the chemical lead is connected to the glittering agent (8) of the second detonation chamber (9).

4. The multi-sound safety detonation bomb according to claim 1, wherein the first detonation chamber (7) and the second detonation chamber (9) are both connected with drag hooks (15), and two ends of the tension spring (11) are respectively connected with the two drag hooks (15).

5. A multi-sound safety type detonation bomb according to claim 1, characterised in that the casing comprises a main casing (1) with an opening at one end and a spinning cap body (2) connected to the opening of the main casing (1), and the escape opening (17) is arranged at the end of the main casing (1) far from the opening.

6. A multi-sound safety detonation cartridge according to claim 5, characterised in that the main housing (1) is provided with an escape opening (17) and at one end is connected with a rubber sealing cap (20).

7. The multi-sound safety type detonation bomb according to claim 1 or 3, wherein the first detonation portions (5) are arranged in a plurality of numbers, the first detonation portions (5) are all annular, the diameters of the first detonation portions decrease in sequence, the first detonation portions (5) are sleeved in sequence according to the diameters, and a pop-up assembly and a secondary ignition device are connected among the first detonation portions (5).