CN109855478B - Multifunctional antiriot bomb with two-stage separating mechanism - Google Patents

Abstract

The invention discloses a multifunctional antiriot bomb with a two-stage separating mechanism, which comprises: the explosion-proof bullet shell comprises a bullet shell body, a transmitting part, a knocking part, a primary separation mechanism, a knocking part, a secondary separation mechanism, a knocking part, a kinetic energy part and a sealing pad, wherein the transmitting part, the knocking part, the primary separation mechanism, the knocking part, the secondary separation mechanism, the knocking part and the kinetic energy part are connected in series and are positioned in the bullet shell body, the transmitting part is endowed with an initial flying speed, the knocking part is used for deterring targets, the primary separation mechanism is used for separating the knocking part, the knocking part is used for identifying targets, the secondary separation mechanism is used for separating the knocking part, the knocking part realizes tear-proof dispersion, the kinetic energy part realizes kinetic energy striking, and the sealing pad is used for sealing a full bullet.

Description

Multifunctional antiriot bomb with two-stage separating mechanism

Technical Field

The invention relates to the technical field of antiriot ammunition, in particular to a multifunctional antiriot ammunition with a two-stage separation mechanism.

Background

The existing gun-type riot bomb has single function and large potential safety hazard.

Disclosure of Invention

The invention aims to provide a multifunctional antiriot bomb with a two-stage separation mechanism, so as to solve the problems of single function and high potential safety hazard of the existing gun-type antiriot bomb.

In order to achieve the above purpose, the invention provides a multifunctional antiriot bomb with a two-stage separation mechanism, which is achieved by the following specific technical means:

multifunctional antiriot bomb with two-stage separation mechanism, comprising: the shell, the transmitting part, the primer, the propellant chamber, the upper nozzle of the propellant chamber, the propellant, the sealing cover foil adhesive position, the knocking part, the knocking body expansion port, the knocking body concave part, the explosion hole, the delay fire tube, the delay agent, the delay fire tube lower port, the delay fire tube upper port, the flashing agent, the knocking part explosion tube, the knocking part explosion-expanding agent, the knocking part explosion-expanding tube jack, the knocking part explosion-expanding tube, the knocking part delay tube, the knocking part adhesive position, the primary separation mechanism I-shaped support frame, the primary separation mechanism explosion-expanding agent, the explosion part, the explosion body expansion port, the explosion body explosion groove, the dye capsule, the dye, the explosion part explosion-expanding tube jack the explosion part is characterized by comprising an explosion part delay tube, an explosion part explosion tube sealing cover, an explosion part explosion expanding agent, an explosion part bonding part, a secondary separation mechanism I-shaped support frame, a secondary separation mechanism explosion agent, an explosion part steel shell bottom, an explosion part paper shell wall, an explosion part delay tube jack, an explosion part delay tube, a circular OC stimulation powder block, an explosion part T-shaped explosion tube top pressure relief hole, an explosion part T-shaped explosion tube side wall pressure relief hole, an explosion part explosion expanding agent, a kinetic energy part, a pushing disc, a kinetic energy part paper shell wall square groove, a kinetic energy pellet, lead sand, a pellet tail wing and a sealing pad; the method is characterized in that: the inner side of the lower part of the cartridge case is provided with a transmitting part, the transmitting part comprises a primer, a transmitting powder chamber upper nozzle, transmitting powder, a sealing cover foil and a sealing cover foil gluing part, the primer is riveted at the axle center of the bottom end surface of the cartridge case, the upper side of the primer is communicated with the transmitting powder chamber, the transmitting powder chamber is filled in the transmitting powder chamber, the transmitting powder chamber upper nozzle is arranged on the transmitting powder chamber, the sealing cover foil is arranged on the transmitting powder chamber upper nozzle, the sealing cover foil is glued and fixed with the cartridge case through hot melt adhesive at the sealing cover foil gluing part, the transmitting part upper side is provided with a knocking part, the knocking part comprises a knocking elastomer, a knocking elastomer expansion port, a knocking elastomer concave part, a blasting hole, a delay fire guiding pipe, a delay medicine, a delay fire guiding pipe lower port, a delay fire guiding pipe upper port, a flashing agent, a knocking part explosion expanding pipe, a knocking part explosion expanding medicine, a knocking part delay jack, a knocking part delay pipe and a knocking part gluing part, the upper port of the detonation projectile body is provided with an outwards-bulging detonation projectile body expansion port, the bottom of the detonation projectile body is provided with an inwards-concave detonation projectile body lower concave part, the side wall of the detonation projectile body is provided with a detonation hole, the inner side of the detonation projectile body is provided with a delay fire guiding pipe, the delay fire guiding pipe penetrates through the detonation projectile body, the lower port of the delay fire guiding pipe is positioned at the lower side of the detonation projectile body lower concave part, the upper port of the delay fire guiding pipe is positioned in the first-stage separation mechanism, the detonation projectile body is internally filled with a flashing agent, the central axis of the detonation projectile body is provided with a detonation part detonation tube, the detonation part detonation tube is internally provided with detonation part detonation powder, the axial center of the upper end surface of the detonation projectile body is provided with a detonation part delay tube jack, the detonation part delay tube jack is used for inserting and fixing the detonation part delay tube, the upper side of the expansion port of the detonation projectile body and the inner wall of the detonation projectile body are provided with detonation portion bonding parts, the detonation portion bonding parts are used for gluing and fixing detonation portions and explosion dyeing portions, a cavity formed by the upper part of the detonation portions and the bottom of the explosion dyeing portions is of a primary separation structure, the primary separation structure comprises a primary separation mechanism I-shaped support frame and a primary separation mechanism explosion-expanding agent, the upper part of the primary separation mechanism I-shaped support frame is fixedly connected with the bottom of the explosion dyeing portions, the upper side of the primary separation mechanism I-shaped support frame is supported with the explosion dyeing portions, the explosion dyeing portions comprise explosion projectile bodies, explosion projectile body expansion ports, explosion projectile body explosion grooves, dye capsules, dyes, explosion dyeing portion delay tube insertion holes, explosion dyeing portion delay tubes, explosion dyeing portion explosion tube expansion sealing covers, explosion dyeing portion explosion-expanding agent and explosion dyeing portion bonding parts, the upper port of the explosion-dyeing elastomer is provided with an explosion-dyeing elastomer expansion port which expands outwards, the side wall of the explosion-dyeing elastomer is provided with an explosion-dyeing elastomer explosion groove, the inner side of the explosion-dyeing elastomer is provided with a dye capsule, the dye capsule is filled with a dye, the central axis of the explosion-dyeing elastomer is provided with an explosion-dyeing part explosion tube, the lower side of the explosion-dyeing part explosion tube is provided with an explosion-dyeing part delay tube jack, the explosion-dyeing part delay tube jack is inserted and fixed with an explosion-dyeing part delay tube, the inside of the explosion-dyeing part explosion tube is filled with explosion-dyeing part expansion medicine, the upper end of the explosion-dyeing part explosion tube is sealed by an explosion-part explosion tube sealing cover, the upper side of the explosion-dyeing elastomer expansion port and the inner wall of the explosion-dyeing elastomer are provided with explosion-dyeing part bonding parts, the explosion-dyeing part bonding parts are used for adhesively fixing the explosion-dyeing parts and the explosion-dyeing parts, a cavity formed by the upper part of the explosion-dyeing parts and the bottom of the explosion-dyeing parts is of a secondary separation structure, the secondary separation structure comprises an I-shaped support frame of the secondary separation structure and a explosive expanding agent of the secondary separation structure, the upper part of the I-shaped support frame of the secondary separation structure is fixedly connected with the bottom of an explosion part, the upper side of the I-shaped support frame of the secondary separation structure is supported with an explosion part, the explosion part comprises an explosion part steel shell bottom, an explosion part paper shell wall, an explosion part delay tube jack, an explosion part delay tube, a circular OC stimulation powder block, an explosion part T-shaped explosion tube top pressure relief hole, an explosion part T-shaped explosion tube side wall pressure relief hole and an explosion part explosion agent, the explosion part steel shell bottom is glued and fixed with the explosion part paper shell wall, the inner side of the explosion part paper shell wall is provided with a circular OC stimulation powder block, an explosion part T-shaped explosion part expansion tube is arranged on the explosion part central axis, the lower part of the explosion part T-shaped expansion tube is provided with an explosion part delay tube jack, the explosion part delay tube jack is inserted into and fixed with an explosion part delay tube, the top of the explosion part T-shaped expansion tube is provided with an explosion part T-shaped expansion tube top pressure relief hole, the explosion part T-shaped expansion tube top pressure relief hole is used for endowing a kinetic energy part with pushing kinetic energy, the side wall of the explosion part T-shaped expansion tube is provided with an explosion part T-shaped expansion tube side wall pressure relief hole, the explosion part T-shaped expansion tube side wall pressure relief hole is used for burning and releasing a circular OC stimulation powder block, the upper side of the explosion part is provided with a kinetic energy part, the kinetic energy part comprises a push disc, a kinetic energy part paper shell wall square groove, kinetic energy pellets, lead sand and pellet tail wings, the push disc is glued and fixed with the kinetic energy part paper shell wall, the inner side of the kinetic energy part paper shell wall is provided with kinetic energy pellets, the utility model discloses a kinetic energy portion paper shell wall, kinetic energy portion paper shell wall square groove, the top of kinetic energy portion paper shell wall square groove runs through the top of kinetic energy portion paper shell wall, the bottom of kinetic energy portion paper shell wall square groove is higher than the top of pushing away the dish, it is used for promoting the kinetic energy pellet to push away the dish, the inside plumbous sand of parcel of kinetic energy pellet, kinetic energy pellet rear portion is provided with the pellet fin, kinetic energy portion upside is sealing pad, sealing pad is glued fixedly with the shell, sealing pad is used for sealed full bullet.

As a further optimization of the technical scheme, the multifunctional antiriot bomb with the two-stage separation mechanism is characterized in that the bomb shell is manufactured by processing an aluminum alloy material, the transmitting part, the knocking part, the primary separation mechanism, the explosion dyeing part, the secondary separation mechanism, the explosion accelerating part and the kinetic energy part are axially connected in series and are positioned in the bomb shell, and central axes of the bomb shell, the transmitting part, the knocking part, the primary separation mechanism, the explosion dyeing part, the secondary separation mechanism, the explosion accelerating part, the kinetic energy part and the sealing gasket are overlapped.

As a further optimization of the technical scheme, the multifunctional antiriot bomb with the two-stage separation mechanism is characterized in that the primer is a mechanical impact primer, the powder-transmitting chamber is of a bowl-shaped structure, the diameter of a nozzle on the powder-transmitting chamber is equal to half of the maximum inner diameter of the powder-transmitting chamber, the powder-transmitting chamber is a high-pressure chamber, a low-pressure chamber is formed by the lower side of a concave part of the detonation bomb body and the upper side space of the nozzle on the powder-transmitting chamber, and the high-pressure chamber and the low-pressure chamber form the high-pressure and low-pressure transmitting mechanism.

As a further optimization of the technical scheme, the multifunctional explosion-proof bomb with the two-stage separation mechanism is characterized in that the detonation bomb body is manufactured by processing an aluminum alloy material, the delay fire guide pipes are manufactured by processing a high-temperature-resistant heat insulation material, the number of the delay fire guide pipes is 2, the 2 delay fire guide pipes are symmetrically distributed by taking the central axis of the detonation part as the center, 6-8 explosion holes are formed in the same axial direction of the side wall of the detonation bomb body, 6-8 explosion holes in the same axial direction form an explosion hole group, the number of the explosion hole group is 8, and the 8 explosion hole groups are distributed in a circumferential array along the central axis of the detonation bomb body.

As a further optimization of the technical scheme, the multifunctional antiriot bomb with the two-stage separation mechanism is characterized in that the I-shaped support frame of the first-stage separation mechanism and the I-shaped support frame of the second-stage separation mechanism are made of stainless steel materials, the I-shaped support frame of the first-stage separation mechanism and the I-shaped support frame of the second-stage separation mechanism are 8 in number, and the I-shaped support frame of the first-stage separation mechanism and the I-shaped support frame of the second-stage separation mechanism are 2 in number in the same radial direction of the cartridge shell.

As a further optimization of the technical scheme, the multifunctional explosion-proof bomb with the two-stage separation mechanism is characterized in that the explosion-proof bomb is manufactured by processing an aluminum alloy material, explosion-proof bomb explosion grooves are of an oblong structure, the number of the explosion-proof bomb explosion grooves is 6, and the 6 explosion-proof bomb explosion grooves are distributed in a circumferential array along the central axis of the explosion-proof bomb.

As a further optimization of the technical scheme, the multifunctional anti-riot bomb with the two-stage separation mechanism is provided with the detonation portion delay tube head facing the first-stage separation structure, the detonation portion delay tube tail is positioned in the detonation portion expansion tube, the detonation portion delay tube head facing the second-stage separation mechanism, the detonation portion delay tube tail is positioned in the detonation portion T-shaped expansion tube, the delay time of the delay fire tube and the detonation portion delay tube is 1.5S, and the delay time of the detonation portion delay tube and the detonation portion delay tube is 2S.

As a further optimization of the technical scheme, the multifunctional explosion-proof bomb with the two-stage separation mechanism is characterized in that miniature pressure relief holes are densely formed in the side walls of the explosion part explosion tube and the explosion part explosion tube, the number of pressure relief holes at the top of the explosion part T-shaped explosion tube in the same radial direction of the explosion part T-shaped explosion tube is 3, the pressure relief holes at the top of the explosion part T-shaped explosion tube in the same radial direction of the top of the explosion part T-shaped explosion tube form an explosion part T-shaped explosion tube top pressure relief hole group, the number of the explosion part T-shaped explosion tube top pressure relief hole group is 6, the 6 explosion part T-shaped explosion tube top pressure relief hole groups are distributed in a circumferential array along the central axis of the explosion part T-shaped explosion tube, the number of the explosion part T-shaped explosion expansion pipe side wall pressure relief holes in the same axial direction of the explosion part T-shaped explosion expansion pipe side wall is 4-6, the explosion part T-shaped explosion expansion pipe side wall pressure relief holes in the same axial direction of the explosion part T-shaped explosion expansion pipe side wall are 4-6 to form an explosion part T-shaped explosion expansion pipe side wall pressure relief hole group, the number of the explosion part T-shaped explosion pipe side wall pressure relief hole group is 6, the 6 explosion part T-shaped explosion pipe side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the explosion part T-shaped explosion pipe, and the micro pressure relief holes in the explosion part explosion pipe and the explosion part explosion pipe side wall, the explosion part T-shaped explosion pipe top pressure relief hole and the explosion part T-shaped explosion pipe side wall pressure relief hole are sealed by hot melt adhesives.

As a further optimization of the technical scheme, the multifunctional anti-riot bomb with the two-stage separation mechanism is characterized in that the annular OC stimulating powder block is of a hollow annular solid structure, and three different inner diameters are correspondingly arranged on the annular OC stimulating powder block according to the outer diameter of the T-shaped explosion tube of the explosion promoting part, so that the multifunctional anti-riot bomb is convenient to match and install.

As a further optimization of the technical scheme, the multifunctional antiriot bomb with the two-stage separation mechanism is characterized in that the number of the paper shell wall square grooves of the kinetic energy part is 3, the 3 paper shell wall square grooves of the kinetic energy part are distributed in a circumferential array along the central axis of the paper shell wall of the kinetic energy part, the number of the kinetic energy pellets is 4, the 4 kinetic energy pellets are distributed in a circumferential array along the central axis of the kinetic energy part, the number of the pellet tail wings is 4, and the 4 pellet tail wings are distributed in a circumferential array along the central axis of the kinetic energy pellets.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. the invention has smart structure and novel and scientific design;

2. the primary separation mechanism, the knocking part, the explosion dyeing part, the secondary separation mechanism and the explosion accelerating part all emit huge explosion sounds during the detonation to form a multi-sound explosion effect, so that the deterrence of the invention is greatly enhanced;

3. According to the invention, the sealing cover foil is skillfully designed, and the sealing cover foil is fixed with the cartridge case through the hot melt adhesive, so that when the propellant powder fails or the propellant powder is leaked, the primer is difficult to directly burn the powder charge in the cartridge case, and the explosion accident is effectively avoided;

4. according to the invention, the explosion hole is designed on the detonation shell body, the explosion dyeing shell body is provided with the explosion dyeing shell body explosion groove, and the explosion part adopts the design of the paper shell wall of the explosion part, so that sharp fragments cannot appear near the explosion point, and the occurrence of accidental casualties is greatly reduced;

5. the invention can realize multiple non-fatal effects such as frightening, dyeing marking, tear-forcing dispersing, kinetic energy striking and the like successively by designing the knocking part, the dyeing part, the explosion accelerating part and the kinetic energy part, and has various functions and flexible tactical performance. Meanwhile, the primary separation structure and the secondary separation structure can realize the throwing separation of the rear projectile body and the continuous propulsion of the front projectile body while detonating, so that the range of the invention is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a schematic structural view of the transmitting part 2 in the present invention;

fig. 3 is a schematic view of the structure of a knocking portion 3 in the present invention;

fig. 4 is a schematic perspective view of a knock part 3 in the present invention;

FIG. 5 is a schematic perspective view of a delay catheter 3-2 according to the present invention;

FIG. 6 is a schematic view of the primary separating mechanism 4 according to the present invention;

FIG. 7 is a schematic distribution diagram of an I-shaped support frame 4-1 of a primary separation mechanism in the invention;

fig. 8 is a schematic structural view of the explosion dyeing part 5 in the present invention;

fig. 9 is a schematic perspective view of the explosion dyeing part 5 in the present invention;

FIG. 10 is a schematic view of the structure of the secondary separation mechanism 6 of the present invention;

FIG. 11 is a schematic structural view of the explosion promoting part 7 and the kinetic energy part 8 in the invention;

FIG. 12 is a schematic perspective view of a T-shaped explosion tube 7-6 of the explosion promoting part in the invention;

fig. 13 is a schematic perspective view of the kinetic energy part paper shell wall 8-2 in the present invention.

In the figure: 1. the shell, 2, the transmitting part, 2-1, primer, 2-2, the transmitting powder chamber, 2-2-1, the transmitting powder chamber upper nozzle, 2-3, the transmitting powder, 2-4, the sealing cover foil, 2-4-1, the sealing cover foil adhesive part, 3, the knocking part, 3-1 knocking elastomer, 3-1-1, the knocking elastomer expansion port, 3-1-2, the knocking elastomer concave part, 3-1-3, the explosion hole, 3-2, the delay fire tube, 3-2-1, the delay powder, 3-2-2, the delay fire tube lower port, 3-2-3, the delay fire tube upper port, 3-3, the flashing agent, 3-4, the knocking part explosion tube, 3-5, the knocking part explosion powder, 3-6, the knocking part delay tube jack, 3-7 parts of detonation part delay pipes, 3-8 parts of detonation part bonding parts, 4 parts of primary separation mechanisms, 4-1 parts of primary separation mechanisms, I-shaped supporting frames of the primary separation mechanisms, 4-2 parts of primary separation mechanisms for expanding explosive, 5 parts of detonation parts, 5-1 parts of detonation shell bodies, 5-1-2 parts of detonation shell body expansion ports, 5-1-2 parts of detonation shell bodies, 5-2 parts of detonation shell bodies, dye capsules, 5-3 parts of dye, 5-4 parts of detonation part delay pipe inserting holes, 5-5 parts of detonation part delay pipes, 5-6 parts of detonation part expansion pipes, 5-6-1 parts of detonation part expansion pipe sealing covers of detonation part expansion pipes, 5-7 parts of detonation part expansion medicines, 5-8 parts of detonation part bonding parts, 6 parts of secondary separation mechanisms, 6-1 parts of detonation shell bodies, the device comprises an I-shaped support frame of a secondary separation mechanism, an explosive expanding agent of the secondary separation mechanism, 7, an explosion part, 7-1, an explosion part steel shell bottom, 7-2, an explosion part paper shell wall, 7-3, an explosion part delay tube jack, 7-4, an explosion part delay tube, 7-5, a circular OC stimulation powder block, 7-6, an explosion part T-shaped explosion tube, 7-6-1, an explosion part T-shaped explosion tube top pressure relief hole, 7-6-2, an explosion part T-shaped explosion tube side wall pressure relief hole, 7-7, an explosion part explosion expanding agent, 8, a kinetic energy part, 8-1, a pushing disc, 8-2, a kinetic energy part paper shell wall, 8-2-1, a kinetic energy part paper shell wall square groove, 8-3, a kinetic energy pellet, 8-3-1, lead sand, 8-3-2, a pellet tail fin, 9 and a sealing gasket.

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.

Referring to fig. 1-13, the present invention provides a technical solution: a multifunctional antiriot bomb with a two-stage separating mechanism, comprises a shell 1, a transmitting part 2, a primer 2-1, a powder chamber 2-2, a powder chamber upper nozzle 2-2-1, a powder 2-3, a sealing cover foil 2-4, a sealing cover foil adhesive position 2-4-1, a detonation part 3, a detonation bomb 3-1, a detonation bomb expansion port 3-1-1, a detonation bomb concave part 3-1-2, a detonation hole 3-1-3, a delay fire tube 3-2, a delay powder 3-2-1, a delay fire tube lower port 3-2-2, a delay fire tube upper port 3-2-3, a flashing agent 3-3, a detonation part explosion expanding tube 3-4, a detonation part explosion expanding agent 3-5, a detonation part delay tube jack 3-6, a detonation part delay tube 3-7, a detonation part adhesive position 3-8 the device comprises a first-stage separation mechanism 4, an I-shaped support frame 4-1 of the first-stage separation mechanism, a first-stage separation mechanism explosive 4-2, an explosive part 5, an explosive body 5-1, an explosive body expansion port 5-1-1, an explosive body explosion tank 5-1-2, a colorant capsule 5-2, a colorant 5-3, an explosive part delay tube jack 5-4, an explosive part delay tube 5-5, an explosive part explosive tube 5-6, an explosive part explosive tube sealing cover 5-6-1, an explosive part explosive 5-7, an explosive part bonding part 5-8, a secondary separation mechanism 6, a secondary separation mechanism I-shaped separation mechanism 6-1, a secondary separation mechanism explosive 6-2, the explosion part 7, the explosion part steel shell bottom 7-1, the explosion part paper shell wall 7-2, the explosion part delay tube insertion hole 7-3, the explosion part delay tube 7-4, the annular OC stimulation powder block 7-5, the explosion part T-shaped explosion tube 7-6, the explosion part T-shaped explosion tube top pressure relief hole 7-6-1, the explosion part T-shaped explosion tube side wall pressure relief hole 7-6-2, the explosion part explosion agent 7-7, the kinetic energy part 8, the pushing disc 8-1, the kinetic energy part paper shell wall 8-2-1, the kinetic energy part paper shell wall square groove 8-3, the lead sand 8-3-1, the pellet tail 8-3-2 and the sealing gasket 9; the method is characterized in that: the inner side of the lower part of the cartridge case 1 is provided with a transmitting part 2, the transmitting part 2 comprises a primer 2-1, a transmitting medicine chamber 2-2, a transmitting medicine chamber upper nozzle 2-2-1, a transmitting medicine 2-3, a sealing cover foil 2-4 and a sealing cover foil gluing part 2-4-1, the primer 2-1 is riveted at the axle center of the bottom end surface of the cartridge case 1, the upper side of the primer 2-1 is communicated with the transmitting medicine chamber 2-2, the transmitting medicine chamber 2-2 is internally filled with the transmitting medicine 2-3, the transmitting medicine chamber upper nozzle 2-2-1 is arranged at the upper part of the transmitting medicine chamber 2-2, the sealing cover foil 2-4 is arranged at the upper side of the transmitting medicine chamber upper nozzle 2-2-1, the sealing cover foil 2-4-1 is glued and fixed with the cartridge case 1 through hot melt adhesive at the sealing cover foil gluing part 2-4-1, the sealing cover foil 2-4 makes the primer 2-1 difficult to directly burn the charge in the bomb when the propellant 2-3 fails or the propellant 2-3 leaks, so that the explosion accident is effectively avoided, the upper side of the transmitting part 2 is provided with the knocking part 3, the knocking part 3 comprises a knocking bomb body 3-1, a knocking bomb body expansion port 3-1-1, a knocking bomb body concave part 3-1-2, a blasting hole 3-1-3, a delay fire tube 3-2, a delay powder 3-2-1, a delay fire tube lower port 3-2-2, a delay fire tube upper port 3-2-3, a flashing agent 3-3, a knocking part explosion expanding tube 3-4, a knocking part explosion expanding powder 3-5, the detonation shell comprises a detonation portion delay tube jack 3-6, a detonation portion delay tube 3-7 and a detonation portion bonding part 3-8, wherein the upper port of the detonation shell body 3-1 is provided with a detonation shell body expansion port 3-1-1 which bulges outwards, the outer side of the detonation shell body expansion port 3-1-1 is propped against the inner wall of the shell body 1, the bottom of the detonation shell body 3-1 is provided with a concave detonation shell body concave part 3-1-2, the side wall of the detonation shell body 3-1 is provided with a detonation hole 3-1-3, the inner side of the detonation shell body 3-1 is provided with a delay fire guide tube 3-2, the delay fire guide tube 3-2 penetrates through the detonation shell body 3-1, the lower port 3-2 of the delay fire guide tube is positioned at the lower side of the concave part 3-1-2 of the detonation shell body, the upper port 3-2-3 of the delay fire guide pipe is positioned in the first-stage separating mechanism 4, the inside of the detonation bomb body 3-1 is filled with a flashing agent 3-3, the central axis of the detonation bomb body 3-1 is provided with a detonation portion explosion-enlarging pipe 3-4, the detonation portion explosion-enlarging pipe 3-4 is filled with a detonation portion explosion-enlarging agent 3-5, the axial center of the upper end face of the detonation bomb body 3-1 is provided with a detonation portion delay pipe jack 3-6, the detonation portion delay pipe jack 3-6 is used for inserting and fixing a detonation portion delay pipe 3-7, the upper side of the detonation bomb expansion port 3-1-1 and the inner wall of the detonation bomb body 3-1 are provided with detonation portion bonding sites 3-8, the detonation portion bonding sites 3-8 are used for adhesively fixing the detonation portion 3 and the detonation portion 5, the cavity formed by the upper part of the knocking part 3 and the bottom of the explosion part 5 is a primary separation structure 4, the primary separation structure 4 comprises a primary separation mechanism I-shaped support frame 4-1 and a primary separation mechanism explosion-expanding agent 4-2, the upper part of the primary separation mechanism I-shaped support frame 4-1 is fixedly connected with the bottom of the explosion part 5, the explosion part 5 is supported on the upper side of the primary separation mechanism I-shaped support frame 4-1, the explosion part 5 comprises an explosion bomb body 5-1, an explosion bomb expansion port 5-1-1, an explosion bomb explosion tank 5-1-2, a dye capsule 5-2, a dye 5-3, an explosion part delay tube jack 5-4, an explosion part delay tube 5-5, an explosion part explosion-expanding tube 5-6, an explosion part explosion tube sealing cover 5-6-1, an explosion part explosion-expanding agent 5-7 and an explosion part bonding part 5-8, the upper port of the explosion-dyeing elastomer 5-1 is provided with an explosion-dyeing elastomer expansion port 5-1-1 which expands outwards, the side wall of the explosion-dyeing elastomer 5-1 is provided with an explosion-dyeing elastomer explosion groove 5-1-2, the inner side of the explosion-dyeing elastomer 5-1 is provided with a dye capsule 5-2, the dye capsule 5-2 is filled with a dye 5-3, the central axis of the explosion-dyeing elastomer 5-1 is provided with an explosion-dyeing part explosion tube 5-6, the lower side of the explosion-dyeing part explosion tube 5-6 is provided with an explosion-dyeing part delay tube jack 5-4, the explosion-dyeing part delay tube jack 5-4 is inserted into and fixed with an explosion-dyeing part delay tube 5-5, the explosion tube 5-6 of the explosion dyeing part is internally filled with explosion agent 5-7 of the explosion dyeing part, the upper end of the explosion tube 5-6 of the explosion dyeing part is sealed by a sealing cover 5-6-1 of the explosion tube of the explosion dyeing part, the sealing cover 5-6-1 of the explosion tube of the explosion dyeing part can generate certain interval between the explosion time of the explosion dyeing part 5 and the explosion time of the secondary separation mechanism 6 under the action of self gravity and hot melt adhesive force, so that the explosion sound is orderly different, the deterrent effect is better, the upper side of an expansion opening 5-1-1 of an explosion bomb body and the inner wall of the explosion bomb body 5-1 are provided with an explosion part bonding part 5-8, the explosion part bonding part 5-8 is used for adhesively fixing the explosion part 5 and the explosion accelerating part 7, a cavity formed by the upper part of the explosion part 5 and the bottom of the explosion accelerating part 7 is the secondary separation structure 6, the secondary separation structure 6 comprises a secondary separation mechanism I-shaped support frame 6-1 and a secondary separation mechanism explosive expansion agent 6-2, the upper part of the secondary separation mechanism I-shaped support frame 6-1 is fixedly connected with the bottom of an explosive part 7, the upper side of the secondary separation mechanism I-shaped support frame 6-1 is supported with the explosive part 7, the explosive part 7 comprises an explosive part steel shell bottom 7-1, an explosive part paper shell wall 7-2, an explosive part delay tube jack 7-3, an explosive part delay tube 7-4, a circular OC stimulation powder block 7-5, an explosive part T-shaped explosive tube 7-6, an explosive part T-shaped explosive tube top pressure relief hole 7-6-1, an explosive part T-shaped explosive tube side wall pressure relief hole 7-6-2, an explosive part explosive agent 7-7, the explosion part steel shell bottom 7-1 is glued and fixed with the explosion part paper shell wall 7-2, the explosion part steel shell bottom 7-1 ensures that the two-stage separation mechanism 6 can not directly ignite the annular OC stimulating powder block 7-5 during explosion, the inner side of the explosion part paper shell wall 7-2 is provided with the annular OC stimulating powder block 7-5, the axis of the explosion part 7 is provided with the explosion part T-shaped explosion tube 7-6, the explosion part T-shaped explosion tube 7-6 is internally provided with the explosion part explosion agent 7-7, the lower part of the explosion part T-shaped explosion tube 7-6 is provided with the explosion part delay tube jack 7-3, the explosion part delay tube jack 7-3 is inserted into and fixed with the explosion part delay tube 7-4, the top of the explosion part T-shaped explosion expansion tube 7-6 is provided with an explosion part T-shaped explosion expansion tube top pressure relief hole 7-6-1, the explosion part T-shaped explosion expansion tube top pressure relief hole 7-6-1 is used for endowing a kinetic energy part 8 with pushing kinetic energy, the side wall of the explosion part T-shaped explosion expansion tube 7-6 is provided with an explosion part T-shaped explosion tube side wall pressure relief hole 7-6-2, the explosion part T-shaped explosion tube side wall pressure relief hole 7-6-2 is used for burning and releasing a circular OC stimulation powder block 7-5, the upper side of the explosion part 7 is provided with a kinetic energy part 8, the kinetic energy part 8 comprises a pushing disc 8-1, a kinetic energy part paper shell wall 8-2-1, a kinetic energy part paper shell wall square groove 8-2-1, a projectile 8-3, a lead sand 8-3-1 and a projectile tail fin 8-3-2, the pushing disc 8-1 is fixed with the paper shell wall 8-2 of the kinetic energy part in an adhesive way, the inner side of the paper shell wall 8-2 of the kinetic energy part is provided with a kinetic energy pellet 8-3, the paper shell wall 8-2 of the kinetic energy part is provided with a square groove 8-2-1 of the paper shell wall of the kinetic energy part, the top of the square groove 8-2-1 of the paper shell wall of the kinetic energy part penetrates through the top of the paper shell wall 8-2 of the kinetic energy part, the bottom of the square groove 8-2-1 of the paper shell wall of the kinetic energy part is higher than the top of the pushing disc 8-1, the pushing disc 8-1 is used for pushing the kinetic energy pellet 8-3, the inside of the kinetic energy pellet 8-3 is wrapped with lead sand 8-3-1, the rear part of the kinetic energy pellet 8-3 is provided with a pellet tail 8-2, the upper side of the kinetic energy part 8 is provided with a sealing pad 9, and the sealing pad 9 is fixed with the casing 1 in an adhesive way, and the sealing pad 9 is used for sealing the whole pellet.

In this embodiment, after the firing, the case 1 remains in the barrel of the riot gun, so that the primer 2-1 and the propellant powder 2-3 can be refilled, and the propellant powder chamber 2-2 is sealed by the sealing cover foil 2-4, so that the case 1 can be reused.

As shown in fig. 1, the shell 1 is manufactured by processing an aluminum alloy material, the transmitting part 2, the knocking part 3, the primary separation mechanism 4, the explosion dyeing part 5, the secondary separation mechanism 6, the explosion accelerating part 7 and the kinetic energy part 8 are axially connected in series and are positioned inside the shell 1, and central axes of the shell 1, the transmitting part 2, the knocking part 3, the primary separation mechanism 4, the explosion dyeing part 5, the secondary separation mechanism 6, the explosion accelerating part 7, the kinetic energy part 8 and the sealing gasket 9 are overlapped.

As shown in fig. 2, the primer 2-1 is a mechanical impact primer, the powder-emitting chamber 2-2 is of a bowl-shaped structure, the diameter of the upper nozzle 2-2-1 of the powder-emitting chamber is equal to half of the maximum inner diameter of the powder-emitting chamber 2-2, the powder-emitting chamber 2-2 is a high-pressure chamber, a low-pressure chamber is formed by the lower side of the concave part 3-1-2 of the detonation shell body and the upper side space of the upper nozzle 2-2-1 of the powder-emitting chamber, and the high-pressure chamber and the low-pressure chamber form the high-low pressure emitting mechanism.

Referring to fig. 3, 4 and 5, the detonation shell 3-1 is made of an aluminum alloy material, the delay fire guide tube 3-2 is made of a high-temperature resistant heat insulation material, so that the situation that the flashy agent 3-3 is ignited in advance in the combustion process of the delay agent 3-2-1 can be effectively avoided, the number of the delay fire guide tubes 3-2 is 2, the 2 delay fire guide tubes 3-2 are symmetrically distributed by taking the central axis of the detonation part 3 as the center, 6-8 blastholes 3-1-3 are formed in the same axial direction of the side wall of the detonation shell 3-1, 6-8 blastholes 3-1-3 in the same axial direction form a blasthole group, the number of the blasthole group is 8, and the 8 blasthole groups are distributed in a circumferential array along the central axis of the detonation shell 3-1.

In this embodiment, the detonation shell 3-1 is provided with the blast holes 3-1-3 on the side wall, so that at the moment of blasting of the detonation portion 3, no four-shot fragments are formed near the blasting point, the possibility of damaging people by the fragments is greatly reduced, and the safety of the detonation device is improved to a certain extent.

Referring to fig. 6 and 7, the first-stage separation mechanism i-shaped support frame 4-1 and the second-stage separation mechanism i-shaped support frame 6-1 are made of stainless steel materials, extrusion among different components in the process of launching can be effectively avoided, meanwhile, the consistency of the structure of the invention is not easily damaged in the process of transportation and storage, the number of the first-stage separation mechanism i-shaped support frame 4-1 and the second-stage separation mechanism i-shaped support frame 6-1 is 8, and the number of the first-stage separation mechanism i-shaped support frame 4-1 and the second-stage separation mechanism i-shaped support frame 6-1 is 2 in the same radial direction of the cartridge case 1.

In the embodiment, the gas pressure generated by the combustion of the propellant powder 2-3 can realize the flight propulsion of 130 meters for the detonation part 3 and the serial components, the explosion force generated by the combustion of the explosive powder 4-2 of the primary separation mechanism can realize the flight propulsion of 50 meters for the detonation part 5 and the serial components, the explosion force generated by the combustion of the explosive powder 6-2 of the secondary separation mechanism can realize the flight propulsion of 50 meters for the detonation part 7 and the kinetic energy part 8, and the explosion force generated by the combustion of the detonation powder 7-7 of the detonation part can realize the flight propulsion of 30 meters for the kinetic energy projectile 8-3, so that the invention can realize detonation deterrence at 130 meters, dyeing marking at 180 meters, tear dispersion at 230 meters and kinetic energy striking at 260 meters, thereby realizing the multi-point multifunctional non-lethal striking effect under medium and long range.

As shown in FIG. 9, the explosion-dyeing bomb body 5-1 is made of aluminum alloy materials, the explosion-dyeing bomb body explosion grooves 5-1-2 are of oblong structures, the number of the explosion-dyeing bomb body explosion grooves 5-1-2 is 6, and the 6 explosion-dyeing bomb body explosion grooves 5-1-2 are distributed in a circumferential array along the central axis of the explosion-dyeing bomb body 5-1.

In this embodiment, the explosion-dyeing bomb body 5-1 is provided with the explosion-dyeing bomb body explosion groove 5-1-2, so that at the moment of explosion of the explosion-dyeing part 5, no laser fragments are formed around the explosion point, thereby greatly reducing the possibility of damaging people by the fragments and further improving the safety of the invention.

Referring to fig. 1, 3 and 8, the head of the detonation section delay tube 3-7 faces the primary separation structure 4, the tail of the detonation section delay tube 3-7 is located inside the detonation section delay tube 3-4, the head of the detonation section delay tube 5-5 faces the primary separation structure 4, the tail of the detonation section delay tube 5-5 is located inside the detonation section delay tube 5-6, the head of the detonation section delay tube 7-4 faces the secondary separation structure 6, the tail of the detonation section delay tube 7-4 is located inside the detonation section T-shaped delay tube 7-6, the delay time of the delay guide tube 3-2 and the detonation section delay tube 3-7 is 1.5S, and the delay time of the detonation section delay tube 5-5 and the detonation section delay tube 7-4 is 2S.

With reference to fig. 1, 3 and 8, the design that the detonation shell expansion port (3-1-1) and the detonation shell expansion port (5-1-1) are outwards bulged enables a larger blasting force to be formed between the detonation shell expansion port (3-1-1) and the detonation shell expansion port (5-1-1) at the moment of blasting by the primary separation mechanism 4 and the secondary separation mechanism 6, so that the detonation part 3 and the detonation part 5 can be thrown away in time.

Referring to fig. 3, 8 and 12, the side walls of the detonation portion detonation tube 3-4 and the detonation portion detonation tube 5-6 are densely provided with micro pressure relief holes, the number of the detonation portion T-shaped detonation tube top pressure relief holes 7-6-1 in the same radial direction of the detonation portion T-shaped detonation tube 7-6 is 3, the 3 detonation portion T-shaped detonation tube top pressure relief holes 7-6-1 in the same radial direction of the detonation portion T-shaped detonation tube 7-6 top form a detonation portion T-shaped detonation tube top pressure relief hole group, the number of the detonation portion T-shaped detonation tube top pressure relief hole group is 6, the 6 detonation portion T-shaped detonation tube top pressure relief hole groups are distributed along the central axis of the detonation portion T-shaped detonation tube 7-6 in a circumferential array, the number of the explosion part T-shaped explosion expansion tube side wall pressure relief holes 7-6-2 in the same axial direction of the explosion part T-shaped explosion expansion tube 7-6 side wall is 4-6, the explosion part T-shaped explosion expansion tube side wall pressure relief holes 7-6-2 with the number of 4-6 in the same axial direction of the explosion part T-shaped explosion expansion tube 7-6 side wall form an explosion part T-shaped explosion expansion tube side wall pressure relief hole group, the number of the explosion part T-shaped explosion tube side wall pressure relief hole group is 6, the 6 explosion part T-shaped explosion tube side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the explosion part T-shaped explosion tube 7-6, and the explosion part explosion tube 3-4 and the explosion part explosion tube 5-6 side wall are provided with miniature holes, the pressure relief hole 7-6-1 at the top of the explosion promoting part T-shaped explosion expanding tube and the pressure relief hole 7-6-2 at the side wall of the explosion promoting part T-shaped explosion expanding tube are sealed by hot melt adhesive.

As shown in FIG. 11, the annular OC stimulating powder block 7-5 is of a hollow annular solid structure, and the annular OC stimulating powder block 7-5 is correspondingly provided with three different inner diameters according to the outer diameter of the explosion promoting part T-shaped explosion tube, so that the matching installation is facilitated.

In this embodiment, the annular OC stimulating powder block 7-5 is an environment-friendly stimulating agent, which will not affect the environment after use, while in other embodiments, if the CS stimulating agent is used, the use area needs to be decontaminated by professional means after use, so as to reduce the influence on the environment.

In this embodiment, the explosion part 7 adopts the design of the paper shell wall 7-2 of the explosion part, so that the possibility of injury caused by broken pieces is greatly reduced.

In this embodiment, the pushing disc 8-1 is made of stainless steel material, so that the burning of the explosive 7-7 in the explosion promoting part can be effectively prevented from ablating the kinetic energy pellets 8-3, and the four kinetic energy pellets 8-3 can be conveniently and uniformly pushed.

As shown in fig. 13, the kinetic energy paper shell wall 8-2 is subjected to the action of air resistance in the process of wrapping the kinetic energy pellets 8-3 for flying, and the square groove 8-2-1 of the kinetic energy paper shell wall is split, so that the kinetic energy paper shell wall 8-2 is separated from the pushing disc, and further, the four kinetic energy pellets 8-3 can fly independently, and multi-point striking of a target is realized.

Referring to fig. 11 and 13, the number of the paper wall square grooves 8-2-1 of the kinetic energy part is 3, the 3 paper wall square grooves 8-2-1 of the kinetic energy part are distributed in a circumferential array along the central axis of the paper wall 8-2 of the kinetic energy part, the number of the kinetic energy pellets 8-3 is 4, the 4 kinetic energy pellets 8-3 are distributed in a circumferential array along the central axis of the kinetic energy part 8, the number of the pellet tail fins 8-3-2 is 4, and the 4 pellet tail fins 8-3-2 are distributed in a circumferential array along the central axis of the kinetic energy pellets 8-3.

In this embodiment, the kinetic energy pellets 8-3 are made of external rubber and internally wrapped with lead sand 8-3-1, and the pellet tail 8-3-2 is arranged outside the kinetic energy pellets 8-3, so that the flight stability of the kinetic energy pellets 8-3 is improved, the purpose that the kinetic energy of the kinetic energy pellets 8-3 is larger and the specific kinetic energy is smaller when the kinetic energy pellets 8-3 are in blunt impact is achieved, and the blunt impact safety of the kinetic energy pellets 8-3 is improved.

In other embodiments, the kinetic energy projectile 8-3 may also be provided with a projectile head opening, and the inside is filled with a stimulating agent, so that the stimulating agent is sprayed out from the split while the target is blunt, and the dual-action effects of kinetic energy striking and tear driving on the target are achieved.

The specific implementation steps are as follows:

The invention is put into a corresponding caliber anti-riot gun, an anti-riot gun trigger is triggered, an anti-riot gun firing pin impacts a primer 2-1, the primer 2-1 ignites a propellant 2-3, the propellant 2-3 burns violently, and the hot melt adhesive at the adhesive position 2-4-1 of a sealing cover foil is ablated, so that the sealing cover foil 2-4 impacts a detonation projectile body concave part 3-1-2 under the action of high-temperature high-pressure gas, the detonation part 3 and a part connected with the detonation part are forced to break a sealing pad 9, fly out from a projectile shell 1, and meanwhile, the delay agent 3-2-1 in a delay fire guide tube 3-2 is ignited, after the detonation part 3 and the part connected with the detonation part fly out of a muzzle, the delay agent 3-2-1 passes through the combustion time of 1.5S, the first-stage separation mechanism in a first-stage separation mechanism 4 is ignited to expand the explosive 4-2, the first-stage separation mechanism expands the explosive 4-2, the hot melt adhesive at the bonding part 3-8 of the detonation part is ablated by violent combustion, under the action of instantaneous high pressure, the detonation part 3 is thrown away to generate a detonation sound, the detonation part delay tube 3-7 and the head part of the detonation part delay tube 5-5 are both ignited, the primary separation mechanism explosive 4-2 is exploded to throw away the detonation part 3, the detonation part 5 and the parts related to the detonation part are continuously pushed, after the detonation part delay tube 3-7 of the thrown detonation part 3 passes through the delay time of 1.5S, the tail part starts to fire, the detonation part explosive 3-5 in the detonation part explosive tube 3-4 is ignited, the detonation part explosive 3-5 is violently combusted, the flash 3-3 is ignited, and huge detonation sound is generated from the detonation hole 3-1-3, the method has a larger deterrent effect on the target, and after 2S of the primary separation structure 4 is exploded, the tail of the explosion part delay tube 5-5 fires, the explosion part explosion medicine 5-7 in the explosion part explosion tube 5-6 is ignited, the explosion part explosion medicine 5-7 is violently burnt to form huge impact on the dye capsule 5-2, the dye capsule 5-2 is broken, the dye 5-3 is quickly ejected from the explosion bomb explosion groove 5-1-2, the target is dyed and identified, the explosion part explosion medicine 5-7 is violently burnt and simultaneously the explosion part explosion tube sealing cover 5-6-1 which is flushed out the top is sealed, the secondary separation mechanism explosion medicine 6-2 in the secondary separation mechanism 6 is ignited, the secondary separation mechanism explosion medicine 6-2 is violently burnt, and explosion sound is emitted, the hot melt adhesive of the bonding part 5-8 of the explosion part is ablated, so that the explosion part 5 is thrown away, the explosion part 7 and the kinetic energy part 8 are pushed to continue to be pushed, meanwhile, the head part of the explosion part delay tube 7-4 is ignited, after the delay time of 2S, the tail part of the explosion part delay tube 7-4 is ignited, the explosion part explosive 7-7 in the explosion part T-shaped explosion tube 7-6 is ignited, the explosion part explosive 7-7 is rapidly combusted, the high-pressure gas sprayed from the pressure release hole 7-6-1 at the top part of the explosion part T-shaped explosion tube pushes the pushing disc 8-1 to move forwards, the kinetic energy pellets 8-3 are endowed with flight kinetic energy, the kinetic energy part paper shell wall 8-2 is acted by air resistance in the flight process of the kinetic energy part 8, the kinetic energy part paper shell wall square groove 8-2-1 is cracked, so that the kinetic energy projectile 8-3 independently flies to the target, and the multipoint kinetic energy striking of the target is realized; the high-pressure fuel gas sprayed from the side wall pressure release hole 7-6-2 of the T-shaped explosion tube of the explosion accelerating part ablates the annular OC stimulating powder block 7-5, so as to break the paper shell wall 7-2 of the explosion accelerating part to form a stimulating agent fog cluster with larger concentration, and tear is dispersed for the target.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Multifunctional antiriot bomb with two-stage separation mechanism, comprising: the shell (1), the transmitting part (2), the primer (2-1), the transmitting powder chamber (2-2), the nozzle (2-2-1) on the transmitting powder chamber, the transmitting powder (2-3), the sealing cover foil (2-4), the sealing cover foil adhesive part (2-4-1), the detonation part (3-6), the detonation shell (3-1), the detonation shell expansion port (3-1-1), the detonation shell concave part (3-1-2), the detonation hole (3-1-3), the delay fire tube (3-2-2), the delay powder (3-2-1), the lower end port (3-2-2) of the delay fire tube, the upper end port (3-2-3) of the delay fire tube, the flash agent (3-3), the detonation part detonation tube (3-4), the detonation part detonation tube (3-5), the detonation part extension tube jack (3-7), the detonation part adhesive part (3-8), the first separation mechanism (4), the first separation mechanism I-shaped support frame (4-1), the first separation mechanism (2-2-2-2), the detonation shell expansion port (1-5) and the detonation shell expansion port (1-5) The explosion-dyeing device comprises an explosion-dyeing elastomer explosion tank (5-1-2), a dyeing agent capsule (5-2), a dyeing agent (5-3), an explosion-dyeing part delay tube jack (5-4), an explosion-dyeing part delay tube (5-5), an explosion-dyeing part explosion-expanding tube (5-6), an explosion-dyeing part explosion-expanding tube sealing cover (5-6-1), an explosion-dyeing part explosion-expanding agent (5-7), an explosion-dyeing part bonding part (5-8), a secondary separation mechanism (6), a secondary separation mechanism I-shaped supporting frame (6-1), a secondary separation mechanism explosion-expanding agent (6-2), an explosion-accelerating part (7), an explosion-accelerating part steel shell bottom (7-1) the explosion part paper shell wall (7-2), the explosion part delay tube jack (7-3), the explosion part delay tube (7-4), the annular OC stimulation powder block (7-5), the explosion part T-shaped explosion tube (7-6), the explosion part T-shaped explosion tube top pressure release hole (7-6-1), the explosion part T-shaped explosion tube side wall pressure release hole (7-6-2), the explosion part explosion medicine (7-7), the kinetic energy part (8), the pushing disc (8-1), the kinetic energy part paper shell wall (8-2), the kinetic energy part paper shell wall square groove (8-2-1), the projectile (8-3), lead sand (8-3-1), a projectile tail wing (8-3-2) and a sealing pad (9); the method is characterized in that: the inner side of the lower part of the shell case (1) is provided with a transmitting part (2), the shell case (1) is manufactured by processing an aluminum alloy material, the transmitting part (2) comprises a primer (2-1), a transmitting medicine chamber (2-2-1), a transmitting medicine (2-3), a sealing cover foil (2-4) and a sealing cover foil adhesive part (2-4-1), the primer (2-1) is riveted at the bottom surface axis of the shell case (1), the upper side of the primer (2-1) is communicated with the transmitting medicine chamber (2-2), the primer (2-1) is a mechanical impact primer, the transmitting medicine chamber (2-2) is of a bowl-shaped structure, the diameter of a nozzle (2-2-1) on the transmitting medicine chamber is equal to half of the maximum inner diameter of the transmitting medicine chamber (2-2), the transmitting medicine chamber (2-2) is a high-pressure chamber, the lower side of a lower elastomer concave part (3-1-2), the transmitting medicine chamber (2-2-1) is provided with a low-pressure chamber, the transmitting medicine chamber (2-2) is formed by the high-pressure chamber, the transmitting medicine chamber (2-2) is filled with the high-pressure chamber, the transmitting medicine chamber (2-2-1) is filled with the high-pressure chamber, the upper side of the upper nozzle (2-2-1) of the powder-transmitting chamber is provided with a sealing cover foil (2-4), the sealing cover foil (2-4-1) is glued and fixed with a shell (1) through hot melt glue at the gluing position (2-4-1) of the sealing cover foil, the upper side of the powder-transmitting chamber is provided with a detonation part (3), the detonation part (3) comprises a detonation shell (3-1), a detonation shell expansion port (3-1-1), a detonation shell concave part (3-1-2), a detonation hole (3-1-3), a delay fire tube (3-2), a delay powder (3-2-1), a delay fire tube lower port (3-2-2), a delay fire tube upper port (3-2-3), a flashing agent (3-3), a detonation part detonation tube (3-4), a detonation part detonation powder (3-5), a detonation part delay tube jack (3-6), a detonation tube (3-7) and a part gluing position (3-8), the upper port (3-1) is provided with a detonation shell expansion port (3-1) outwards provided with the detonation shell expansion port (1-1), the side wall of the detonation bomb body (3-1) is provided with a blasting hole (3-1-3), the inner side of the detonation bomb body (3-1) is provided with a delay fire guide pipe (3-2), the delay fire guide pipe (3-2) penetrates through the detonation bomb body (3-1), a lower port (3-2-2) of the delay fire guide pipe is positioned at the lower side of a detonation bomb body concave part (3-1-2), an upper port (3-2-3) of the delay fire guide pipe is positioned in a first-stage separation mechanism (4), the detonation bomb body (3-1) is internally filled with a flashing agent (3-3), a central axis of the detonation bomb body (3-1) is provided with a detonation portion detonating tube (3-4), a detonation portion detonating tube jack (3-6) is formed in the axial center of the upper end face of the detonation bomb body (3-1), the detonation portion detonating tube jack (3-6) is used for inserting and fixing the detonation bomb body (3-1) and the detonation bomb body (3-1) is provided with a detonation portion detonating portion expanding agent (3-5), the detonation portion bonding part (3-8) is used for adhesively fixing the detonation portion (3) and the explosion portion (5), a cavity formed by the upper part of the detonation portion (3) and the bottom of the explosion portion (5) is a primary separation mechanism (4), the primary separation mechanism (4) comprises a primary separation mechanism I-shaped supporting frame (4-1) and a primary separation mechanism explosion-expanding agent (4-2), the upper part of the primary separation mechanism I-shaped supporting frame (4-1) is fixedly connected with the bottom of the explosion portion (5), the explosion portion (5) is supported on the upper side of the primary separation mechanism I-shaped supporting frame (4-1), the explosion portion (5) comprises an explosion elastomer (5-1), an explosion elastomer expansion port (5-1-1), an explosion elastomer explosion tank (5-1-2), a dye capsule (5-2), a dye (5-3), an explosion portion extension tube jack (5-4), an explosion portion extension tube (5-5), an explosion portion expansion tube (5-6), a sealing cover (5-6), an explosion portion (5-1) and an explosion port (5-1-8) are arranged on the explosion elastomer expansion port (5-1-1), the side wall of the explosion-dyeing elastomer (5-1) is provided with an explosion-dyeing elastomer explosion groove (5-1-2), the inner side of the explosion-dyeing elastomer (5-1) is provided with a dye capsule (5-2), the dye capsule (5-2) is internally provided with a dye (5-3), the central axis of the explosion-dyeing elastomer (5-1) is provided with an explosion-dyeing part explosion tube (5-6), the lower side of the explosion-dyeing part explosion tube (5-6) is provided with an explosion-dyeing part extension tube jack (5-4), the explosion-dyeing part extension tube jack (5-4) is inserted into and fixed with an explosion-dyeing part extension tube (5-5), the explosion-dyeing part extension tube (5-7) is filled in the explosion-dyeing part extension tube (5-6), the upper end of the explosion-dyeing part extension tube (5-6) is sealed by a thermal-melt adhesive seal cover (5-6-1) through thermal-melt adhesive, the upper side of the explosion-dyeing elastomer expansion opening (5-1-1), the inner wall (5-1) is provided with an explosion-dyeing part extension tube (5-6) and the explosion-8) is adhered to form a separation mechanism (5-8) of the explosion-dyeing part (5-8), the secondary separation mechanism (6) comprises a secondary separation mechanism I-shaped supporting frame (6-1) and a secondary separation mechanism explosive expansion agent (6-2), the upper part of the secondary separation mechanism I-shaped supporting frame (6-1) is fixedly connected with the bottom of an explosive explosion part (7), the upper side of the secondary separation mechanism I-shaped supporting frame (6-1) is supported with the explosive explosion part (7), the explosive explosion part (7) comprises an explosive explosion part steel shell bottom (7-1), an explosive explosion part paper shell wall (7-2), an explosive explosion part extension tube jack (7-3), an explosive explosion part extension tube (7-4), a circular OC stimulation powder block (7-5), an explosive explosion part T-shaped explosive explosion tube (7-6), an explosive explosion part T-shaped explosive explosion tube top pressure release hole (7-6-1), an explosive explosion part expansion agent (7-7), the explosive explosion part shell bottom (7-1) comprises an explosive explosion part steel shell bottom (7-1), an explosive explosion part 7-2, an annular explosion part (7-7) and an explosive explosion part (7-2) are arranged on the inner side of the explosive explosion part (7-5), the explosion part T-shaped expansion tube is characterized in that an explosion part delay tube inserting hole (7-3) is formed in the lower part of the explosion part T-shaped expansion tube (7-6), the explosion part delay tube inserting hole (7-3) is inserted into and fixed with the explosion part delay tube (7-4), an explosion part T-shaped expansion tube top pressure relief hole (7-6-1) is formed in the top of the explosion part T-shaped expansion tube (7-6), the explosion part T-shaped expansion tube top pressure relief hole (7-6-1) is used for endowing a kinetic energy part (8) with pushing kinetic energy, an explosion part T-shaped expansion tube side wall pressure relief hole (7-6-2) is formed in the explosion part T-shaped expansion tube side wall pressure relief hole (7-6-2) and is used for burning and releasing a circular OC stimulation powder block (7-5), a kinetic energy part (8) is arranged on the upper side of the explosion part (8), the kinetic energy part (8) comprises a pushing disc (8-1), a paper kinetic energy part (8-2), a paper kinetic energy part (8-3-1), a paper kinetic energy ball (8-3) and a paper kinetic energy ball (8-1-3) are glued with the paper kinetic energy part (8-3-1), the inner side of the paper shell wall (8-2) of the kinetic energy part is provided with a kinetic energy pellet (8-3), the paper shell wall (8-2-1) of the kinetic energy part is provided with a square groove (8-2-1) of the paper shell wall of the kinetic energy part, the top of the square groove (8-2-1) of the paper shell wall of the kinetic energy part penetrates through the top of the paper shell wall (8-2) of the kinetic energy part, the bottom of the square groove (8-2-1) of the paper shell wall of the kinetic energy part is higher than the top of a pushing disc (8-1), the pushing disc (8-1) is used for pushing the kinetic energy pellet (8-3), the inside of the kinetic energy pellet (8-3) is wrapped with lead sand (8-3-1), the novel bullet is characterized in that a bullet tail wing (8-3-2) is arranged at the rear part of the kinetic energy bullet (8-3), a sealing pad (9) is arranged at the upper side of the kinetic energy part (8), the sealing pad (9) is fixedly adhered to the bullet shell (1), the sealing pad (9) is used for sealing the whole bullet, the transmitting part (2), the knocking part (3), the primary separating mechanism (4), the explosion dyeing part (5), the secondary separating mechanism (6), the explosion accelerating part (7) and the kinetic energy part (8) are axially connected in series and are positioned inside the bullet shell (1), and the bullet shell (1), the transmitting part (2), the knocking part (3), the primary separation mechanism (4), the explosion dyeing part (5), the secondary separation mechanism (6), the explosion accelerating part (7), the kinetic energy part (8) and the central axis of the sealing pad (9) are overlapped.

2. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the detonation shell body (3-1) is manufactured by processing an aluminum alloy material, the delay fire guide pipes (3-2) are manufactured by processing a high-temperature resistant heat insulation material, the number of the delay fire guide pipes (3-2) is 2, the 2 delay fire guide pipes (3-2) are symmetrically distributed by taking the central axis of the detonation part (3) as the center, 6-8 blasting holes (3-1-3) are formed in the same axial direction of the side wall of the detonation shell body (3-1), 6-8 blasting holes (3-1-3) in the same axial direction form a blasting hole group, the number of the blasting hole group is 8, and the 8 blasting hole groups are distributed in a circumferential array along the central axis of the detonation shell body (3-1).

3. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the I-shaped support frame (4-1) of the primary separation mechanism and the I-shaped support frame (6-1) of the secondary separation mechanism are manufactured by processing stainless steel materials, the I-shaped support frame (4-1) of the primary separation mechanism and the I-shaped support frame (6-1) of the secondary separation mechanism are 8 in number, and the I-shaped support frame (4-1) of the primary separation mechanism and the I-shaped support frame (6-1) of the secondary separation mechanism are 2 in number in the same radial direction of the cartridge case (1).

4. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the explosion-dyeing bomb body (5-1) is made of aluminum alloy materials, explosion-dyeing bomb body explosion grooves (5-1-2) are of oblong structures, the number of the explosion-dyeing bomb body explosion grooves (5-1-2) is 6, and the 6 explosion-dyeing bomb body explosion grooves (5-1-2) are distributed in a circumferential array along the central axis of the explosion-dyeing bomb body (5-1).

5. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the detonation portion delay tube (3-7) head is towards one-level separating mechanism (4), detonation portion delay tube (3-7) afterbody is located detonation portion and expands the inside of detonation tube (3-4), detonation portion delay tube (5-5) head is towards one-level separating mechanism (4), detonation portion delay tube (5-5) afterbody is located detonation portion and expands inside of detonation tube (5-6), detonation portion delay tube (7-4) head is towards second grade separating mechanism (6), detonation portion delay tube (7-4) afterbody is located detonation portion T type and expands inside of detonation tube (7-6), delay time of delay flame guide tube (3-2) and detonation portion delay tube (3-7) is 1.5S, delay time of detonation portion delay tube (5-5) and detonation portion delay tube (7-4) is 2S.

6. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the side walls of the detonation part explosion tube (3-4) and the detonation part explosion tube (5-6) are densely provided with micro pressure relief holes, the number of the pressure relief holes (7-6-1) at the top of the detonation part T-shaped explosion tube is 3 in the same radial direction of the detonation part T-shaped explosion tube (7-6), the pressure relief holes (7-6-1) at the top of the detonation part T-shaped explosion tube (7-6) in the same radial direction form a detonation part T-shaped explosion tube top pressure relief hole group, the number of the detonation part T-shaped explosion tube top pressure relief hole group is 6, the 6 detonation part T-shaped explosion tube top pressure relief hole groups are distributed along the central axis of the detonation part T-shaped explosion tube (7-6) in a circumferential array, the number of the explosion part T-shaped explosion tube side wall pressure relief holes (7-6-2) is 4 to 6 in the same axial direction of the explosion part T-shaped explosion tube (7-6), the explosion part T-shaped explosion tube side wall pressure relief holes (7-6-2) with the number of 4 to 6 in the same axial direction of the explosion part T-shaped explosion tube side wall form an explosion part T-shaped explosion tube side wall pressure relief hole group, the number of the explosion part T-shaped explosion tube side wall pressure relief hole group is 6, the 6 explosion part T-shaped explosion tube side wall pressure relief hole groups are distributed along the central axis of the explosion part T-shaped explosion tube (7-6) in a circumferential array, the detonation part detonation tube (3-4) and the detonation dyeing part detonation tube (5-6) are sealed by hot melt adhesives, and the detonation part detonation tube top pressure relief hole (7-6-1) and the detonation part T-shaped detonation tube side wall pressure relief hole (7-6-2) are both sealed by hot melt adhesives.

7. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the annular OC stimulation powder block (7-5) is of a hollow annular solid structure, and the annular OC stimulation powder block (7-5) is correspondingly provided with three different inner diameters according to the outer diameter of the explosion-accelerating T-shaped explosion tube, so that matching installation is facilitated.

8. The multi-functional antiriot bomb with a two-stage separation mechanism according to claim 1, wherein: the number of the paper shell wall square grooves (8-2-1) of the kinetic energy part is 3, the 3 paper shell wall square grooves (8-2-1) of the kinetic energy part are distributed in a circumferential array along the central axis of the paper shell wall (8-2) of the kinetic energy part, the number of the kinetic energy pellets (8-3) is 4, the 4 kinetic energy pellets (8-3) are distributed in a circumferential array along the central axis of the kinetic energy part (8), the number of the pellet tail fins (8-3-2) is 4, and the 4 pellet tail fins (8-3-2) are distributed in a circumferential array along the central axis of the kinetic energy pellets (8-3).