CN109682263B - Baffle type follow-up hand-throwing multi-cavity multi-sound antiriot bomb - Google Patents

Abstract

The invention discloses a baffle type follow-up hand-thrown multi-cavity multi-sound antiriot bomb, which comprises: the invention discloses a multi-cavity explosion-proof device, which comprises a safety mechanism, an ignition mechanism, a separating mechanism, an elastic shell, an inner elastomer, a first knocking cavity, a second knocking cavity, a first explosion cavity and a second explosion cavity, wherein the separating mechanism is used for throwing away the ignition mechanism, the elastic shell is sleeved with the inner elastomer, the inner elastomer comprises two knocking cavities and two explosion cavities which are distributed in a circumferential array, the knocking cavities are used for realizing multi-point fringing, the explosion cavities are used for realizing multi-point tear-off, the design of multi-cavity successively delayed explosion is adopted, a baffle is arranged between the inner cavity and the inner elastomer, a cavity is reserved between the inner elastomer and the elastic shell, the possibility of fire disaster is greatly reduced by decompression and smoke exhaust of the side wall of the elastic shell, sharp destructive fragments are not generated, the possibility of accidental injury is greatly reduced by throwing away in advance, and the design of random movement, the multi-point multi-sound explosion is realized, and the multi-cavity explosion effect is beneficial to flexible application of a multi-cavity explosion method during tactical.

Description

Baffle type follow-up hand-throwing multi-cavity multi-sound antiriot bomb

Technical Field

The invention relates to the technical field of antiriot ammunition, in particular to a baffle type follow-up hand-thrown multi-cavity multi-sound antiriot ammunition.

Background

The existing hand-throwing antiriot bomb is easy to cause fire disaster, pick up and throw back, and fire trigger seat is easy to be excited.

Disclosure of Invention

The invention aims to provide a baffle type follow-up hand-throwing multi-cavity multi-sound antiriot bomb so as to solve the problems that the existing hand-throwing antiriot bomb is easy to cause fire disaster, is easy to pick up and throw back and is easy to generate firing seat excitation.

In order to achieve the purpose, the invention provides a baffle type follow-up hand-thrown multi-cavity multi-sound antiriot bomb, which is achieved by the following specific technical means:

baffle type follow-up hand is thrown multicavity and is made many sound riot bullet includes: the safety mechanism, the pull ring, the safety pin, the safety handle vertical section, the safety handle horizontal section, the ignition mechanism, the firing seat, the external screw thread of the firing seat, the turning plate firing pin, the torsion spring, the firing pin rotating shaft, the delay fire cap, the separating mechanism connecting body, the internal screw thread of the separating mechanism connecting body, the bonding part of the separating mechanism, the separating mechanism explosive expanding medicine box, the separating mechanism explosive expanding medicine box the heat-soluble sealing cover foil, the shell, the upper neck of the shell, the propping part of the inner shell, the bottom cover of the shell, the connecting threads of the bottom cover of the shell, the side wall pressure relief hole of the shell, the high-temperature resistant rubber plug, the inner shell, the upper support of the inner shell, the lower support of the inner shell, the cross-shaped skeleton of the inner shell, the side wall pressure relief hole of the inner shell, the first knocking cavity delay pipe, the first knocking cavity baffle plate, the second knocking cavity baffle plate the bonding part of the first detonation cavity baffle, the first detonation cavity explosion expanding tube, the first detonation cavity explosion expanding agent, the first detonation cavity flashing agent, the second detonation cavity delay tube, the second detonation cavity baffle, the bonding part of the second detonation cavity baffle, the second detonation cavity explosion expanding tube, the second detonation cavity explosion expanding agent, the second detonation cavity flashing agent, the first detonation cavity delay tube the first explosion cavity baffle, the bonding part of the first explosion cavity baffle, the first explosion cavity expanding tube, the first explosion cavity expanding explosive, the first explosion cavity OC stimulating powder, the second explosion cavity the second explosion cavity delay tube, the second explosion cavity baffle, the bonding part of the second explosion cavity baffle, the second explosion cavity expansion tube, the second explosion cavity expansion medicine and the second explosion cavity OC stimulating powder; the method is characterized in that: the safety mechanism comprises a pull ring, a safety pin, a safety handle vertical section and a safety handle horizontal section, wherein the pull ring is sleeved with the safety pin, the safety pin penetrates through a firing seat and the safety handle, the vertical section of the safety handle is parallel to the central axis of the cartridge, the lower side of the safety handle horizontal section is abutted against a firing mechanism, the firing mechanism comprises a firing seat, a firing seat external thread, a flap firing pin, a torsion spring, a firing pin rotating shaft and a delay firing cap, the firing seat is fixedly connected with the separating mechanism through the firing seat external thread and the separating mechanism connecting internal thread, the flap firing pin is pressed down by the safety pin to be in a turnover state and compresses the torsion spring, the firing pin rotating shaft is a rotating shaft for the flap pin to rotate, the delay firing cap is positioned in the firing seat, the flap firing pin is just abutted against the center of the head of the delay firing pin after rotating in place, the separating mechanism connecting body, the separating mechanism comprises a separating mechanism connecting body, a separating mechanism connecting internal thread, a separating mechanism bonding position, a separating mechanism expanding medicine box, a separating mechanism expanding medicine and a thermal-sealing cap, the separating mechanism expanding medicine and a thermal-sealing cover are fixedly connected with the separating mechanism, the flap is pressed down by the separating mechanism, the separating mechanism is pressed down into a turnover box is adhered to the inner side of the cartridge, the thermal-sealing cover is adhered to the side of the cartridge, the cartridge is adhered to the inner side of the cartridge, the cartridge is in the side of the cylindrical shell, the cylindrical shell is sealed, the top is sealed by the top cover is sealed, the top cover is sealed by the top cover, the top is sealed, the top cover is sealed, and the top is sealed by the top cover is sealed, and the top cover is sealed and the top cover, and the top is sealed and the top, the lower cylinder of the shell is a main body which is gripped when throwing, the lower end face of the upper neck is an inner elastomer propping part, the shell bottom cover is fixedly connected with the shell side wall through a shell bottom cover connecting thread, the side wall of the shell is provided with a side wall pressure relief hole which is blocked and sealed through a high-temperature resistant rubber plug, the central axis inside the shell is provided with an inner elastomer which comprises an inner elastomer upper support, an inner elastomer lower support, an inner elastomer cross-shaped framework, an inner elastomer side wall and an inner elastomer side wall pressure relief hole, the inner elastomer upper support body is propped against the lower side of the inner elastomer propping position, the inner elastomer cross-shaped framework is welded on the lower side of the inner elastomer upper support body, the inner elastomer side wall penetrates through the inner elastomer cross-shaped framework, an inner elastomer side wall pressure relief hole is formed in the inner elastomer side wall, the inner elastomer lower support body is clamped on the inner elastomer cross-shaped framework and the inner elastomer side wall lower side, the inner elastomer lower support body is propped against the inner elastomer shell bottom cover, and four closed cavities formed by the inner elastomer cross-shaped framework, the inner elastomer side wall, the inner elastomer upper support body and the inner elastomer lower support body are sequentially formed in the clockwise direction: the first detonation cavity comprises a first detonation cavity delay tube, a first detonation cavity baffle bonding part, a first detonation cavity detonation tube, a first detonation cavity detonation agent and a first detonation cavity flashover agent, wherein the first detonation cavity delay tube head is positioned in a separation mechanism detonation agent box, the first detonation cavity delay tube tail is inserted into the upper part of a first detonation cavity detonation tube, the first detonation cavity baffle is tightly attached to the side wall of an inner projectile body, the first detonation cavity baffle bonding part is used for bonding the first detonation cavity baffle with the inner projectile body cross-shaped skeleton, the upper end part of the first detonation cavity detonation tube is welded to the lower end surface of the inner projectile body, the lower end part of the first detonation cavity detonation tube is clamped in the inner detonation body, the first detonation cavity detonation agent is filled in the outer side cavity of the separation mechanism detonation tube, the second detonation cavity is positioned in the inner detonation body, the upper end part of the second detonation cavity expansion tube is connected with the second detonation cavity, the lower end part of the second detonation cavity expansion tube is tightly attached to the second detonation cavity, the upper end part of the second detonation cavity expansion tube is welded to the inner projectile body, the lower end surface of the second detonation cavity expansion tube is tightly attached to the inner detonation body, the lower end part of the second detonation cavity expansion tube is welded to the inner detonation cavity body, the upper end part of the second detonation cavity expansion tube is tightly attached to the inner detonation cavity, the lower end part of the inner detonation cavity expansion body is welded to the second detonation cavity expansion body, the upper end part of the detonation cavity expansion body is tightly connected with the inner detonation cavity detonation body, and the detonation cavity expansion end part of the detonation body is welded, and the inner detonation cavity explosion expansion body is tightly connected with the inner detonation piston, and is welded with the inner detonation piston rod sealing part, the second detonation chamber explosion tube is internally provided with a second detonation chamber explosion agent, the cavity outside the second detonation chamber explosion tube is filled with a second detonation chamber flash agent, the first detonation chamber comprises a first detonation chamber delay tube, a first detonation chamber baffle bonding part, a first detonation chamber explosion tube, a first detonation chamber explosion agent and first detonation chamber OC stimulating powder, the head part of the first detonation chamber delay tube is positioned in a separation mechanism explosion agent box, the tail part of the first detonation chamber delay tube is inserted into the upper part of the first detonation chamber explosion tube, the first detonation chamber baffle is tightly attached to the side wall of an inner elastomer, the bonding part of the first detonation chamber baffle is used for adhesively connecting the first detonation chamber baffle with the cross-shaped skeleton of the inner elastomer, the upper end part of the first detonation chamber explosion tube is welded on the lower end surface of the upper support body of the inner elastomer, the lower end part of the first detonation chamber explosion chamber expansion tube is clamped inside the lower support body of the inner elastomer, the first explosion cavity expanding tube is internally provided with a first explosion cavity expanding powder, a cavity outside the first explosion cavity expanding tube is filled with first explosion cavity OC stimulating powder, the second explosion cavity is positioned at the opposite angle side of the first explosion cavity, the second explosion cavity comprises a second explosion cavity delay tube, a second explosion cavity baffle, a bonding part of the second explosion cavity baffle, a second explosion cavity expanding tube, a second explosion cavity expanding powder and the second explosion cavity OC stimulating powder, the head part of the second explosion cavity delay tube is positioned in a separating mechanism expanding powder box, the tail part of the second explosion cavity delay tube is inserted into the upper part of the second explosion cavity expanding tube, the second explosion cavity baffle is tightly attached to the side wall of the inner elastomer, the bonding part of the second explosion cavity baffle is used for adhesively connecting the second explosion cavity baffle with the cross-shaped skeleton of the inner elastomer, the upper end part of the second explosion cavity expanding tube is welded on the lower end surface of the upper support of the inner elastomer, the lower end part of the second explosion accelerating cavity expanding tube is clamped in the lower support body of the inner elastomer, the second explosion accelerating cavity expanding tube is internally provided with a second explosion accelerating cavity expanding drug, and the cavity outside the second explosion accelerating cavity expanding tube is filled with second explosion accelerating cavity OC stimulating powder.

As further optimization of the technical scheme, the baffle type follow-up hand-thrown multi-cavity multi-sound antiriot bomb is characterized in that the delay fire cap is a needled delay fire cap, the head of the delay fire cap is aligned with the top of the firing seat, the tail of the delay fire cap faces to the explosive box of the separation mechanism, and the delay time of the delay fire cap is 1.5S.

As a further optimization of the technical scheme, the baffle type follow-up hand-thrown multi-cavity multi-sound antiriot bomb disclosed by the invention is characterized in that the shell and the inner bomb body are processed and manufactured by adopting stainless steel materials, the high-temperature-resistant rubber plug cannot be ablated under the action of high-temperature high-pressure gas, and the high-temperature-resistant rubber plug can be used as a pain-causing target of a kinetic energy bomb after being flushed out.

As further optimization of the technical scheme, the baffle type follow-up hand-thrown multi-cavity multi-sound antiriot bomb is characterized in that a plurality of side wall pressure relief holes are formed in the same axial direction of the side wall of the shell, a side wall pressure relief hole group is formed by the side wall pressure relief holes in the same axial direction of the side wall of the shell, the number of the side wall pressure relief hole groups is equal, and the side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the shell.

As further optimization of the technical scheme, the baffle type follow-up type hand-thrown multi-cavity multi-sound anti-riot bomb comprises an inner bomb body side wall, the diameter of a circle formed by surrounding the inner bomb body side wall is 2/3 of the maximum outer diameter of a cross-shaped skeleton of the inner bomb body, a plurality of inner bomb body side wall pressure relief holes are formed in the same axial direction of the inner bomb body side wall, an inner bomb body side wall pressure relief hole group is formed by the inner bomb body side wall pressure relief holes in the same axial direction of the inner bomb body side wall, the number of the inner bomb body side wall pressure relief hole groups is equal to that of the inner bomb body side wall pressure relief hole groups, the inner bomb body side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the inner bomb body, and two adjacent skeletons of the cross-shaped skeleton of the inner bomb body are provided with the inner bomb body side wall pressure relief hole groups.

As further optimization of the technical scheme, the baffle type follow-up manual multi-cavity multi-sound anti-riot bomb comprises a first detonation cavity baffle, a second detonation cavity baffle, a first detonation cavity baffle and a second detonation cavity baffle which are arc-shaped long thin walls manufactured by processing polyvinyl chloride PVC materials, wherein the first detonation cavity baffle, the second detonation cavity baffle, the first detonation cavity baffle and the second detonation cavity baffle are used for sealing all cavities and preventing medicine in the cavities from leaking.

As further optimization of the technical scheme, the baffle type follow-up hand-thrown multi-cavity multi-sound anti-riot bomb provided by the invention is characterized in that the first detonation cavity is formed by sealing two adjacent inner bomb cross-shaped frameworks, 1/4 part inner bomb side walls clamped by the two adjacent inner bomb cross-shaped frameworks, 1/4 part inner bomb upper supports and 1/4 part inner bomb lower supports, and sealing formation modes of the first detonation cavity, the second detonation cavity and the second detonation cavity are the same as sealing formation modes of the first detonation cavity.

As further optimization of the technical scheme, the baffle type follow-up type hand-thrown multi-cavity multi-sound anti-riot bomb provided by the invention has the advantages that the delay time of the first detonation cavity delay tube is 1S, the delay time of the first detonation cavity delay tube is 2S, the delay time of the second detonation cavity delay tube is 3S, the delay time of the second detonation cavity delay tube is 4S, and the first detonation cavity delay tube, the second detonation cavity delay tube, the first detonation cavity delay tube and the second detonation cavity delay tube are all obliquely inserted into an upper support body of an inner bomb body.

As further optimization of the technical scheme, the baffle type follow-up type hand-thrown multi-cavity multi-sound explosion-proof bomb comprises a first detonation cavity detonation tube, a second detonation cavity detonation tube, a first detonation cavity detonation tube and a second detonation cavity detonation tube which are of funnel-shaped hollow thin-wall structures, micro pressure relief holes are densely formed in the side walls of the first detonation cavity detonation tube, the second detonation cavity detonation tube, the first detonation cavity detonation tube and the second detonation cavity detonation tube, and micro pressure relief Kong Caiyong hot melt adhesives on the side walls of the first detonation cavity detonation tube, the second detonation cavity detonation tube, the first detonation cavity detonation tube and the second detonation cavity detonation tube are sealed.

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

1. the invention has unique structure, ingenious and reasonable design;

2. according to the invention, the separating mechanism is additionally arranged, after the device is thrown out, the separating mechanism is ignited to generate high pressure after 1.5S delay, and the ignition mechanism is thrown away, so that excessive damage to a target caused by the excitation of the firing seat near the explosion center can be effectively avoided;

3. according to the invention, a multi-cavity design is adopted, after a firing mechanism is separated from an cartridge case, the non-fatal striking effects of blasting, tearing, blasting and tearing sequentially occur through 1S, 2S, 3S and 4S, and when blasting is performed each time, a huge sound is emitted, the projectile body is subjected to the action of blasting force and randomly moves on the ground, so that the re-casting is difficult to pick up, in addition, the multi-cavity multi-sound tactical effect and glaring flash can better disperse the attention of a target when the tactical is in, the realization of tactical intention is facilitated, and meanwhile, the invention has a better driving effect on criminal suspects in a closed or semi-closed space;

4. The invention adopts the baffle mechanism, the PVC baffle does not generate sharp fragments after blasting, and meanwhile, a larger gap is reserved between the side wall of the inner elastomer and the shell, after the high-temperature-resistant rubber plug is flushed out, the gas pressure and the gas temperature are greatly reduced, so that the possibility of causing fire is greatly reduced;

5. the design of the high-temperature-resistant rubber plug has a certain sealing effect, is an excellent non-fatal kinetic energy weapon after being pressed and punched, and can realize effective pain striking on a single target or target groups, so that the high-temperature-resistant rubber plug has multiple non-fatal effects of deterring, dazzling, tearing, pain and the like when carrying out large-scale group sudden harassment event treatment.

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 view of the positions of the first explosion chamber 8 and the second explosion chamber 9 in the present invention;

fig. 3 is a schematic structural view of the safety mechanism 1 and the ignition mechanism 2 of the present invention;

FIG. 4 is a schematic view of the separating mechanism 3 according to the present invention;

Fig. 5 is a schematic structural view of the case 4 according to the present invention;

fig. 6 is a schematic perspective view of the case 4 according to the present invention;

FIG. 7 is a schematic perspective view of the location of the first detonation chamber baffle bond 6-3 and the first detonation chamber 8-3 in the present invention;

FIG. 8 is a schematic perspective view of the location of the second detonation chamber baffle bond 7-3 and the second detonation chamber 9-3 in the present invention;

FIG. 9 is a schematic perspective view of the inner projectile sidewall 5-4 of the present invention;

fig. 10 is a schematic view of the structure of the first detonation chamber 6 and the second detonation chamber 7 in the present invention;

fig. 11 is a schematic perspective view of the first explosion chamber 8 and the second explosion chamber 9 in the present invention.

In the figure: 1. 1-1 parts of safety mechanism, pull rings, 1-2 parts of safety pins, 1-3 parts of safety handles, 1-3-1 parts of safety handles, 1-3-2 parts of safety handles, 2 parts of ignition mechanism, 2-1 parts of ignition seat, 2-1 parts of external threads of the ignition seat, 2-2 parts of turning plate firing pins, 2-3 parts of torsion springs, 2-4 parts of firing pin rotating shafts, 2-5 parts of delay fire caps, 3 parts of separation mechanism, 3-1 parts of separation mechanism connectors, 3-2 parts of separation mechanism connectors, 3-3 parts of separation mechanism explosion expanding medicine boxes, 3-3-1 parts of separation mechanism explosion expanding medicine, 3-3-2 parts of heat-soluble sealing cover foils, 4 parts of cartridge casings, 4-1 parts of cartridge casings and upper necks of the cartridge casings, 4-2 parts of an inner shell body, 4-3 parts of a shell body bottom cover, 4-3-1 parts of a shell body bottom cover, 4-4 parts of a shell body side wall pressure relief hole, 4-5 parts of a high temperature resistant rubber plug, 5 parts of an inner shell body, 5-1 parts of an inner shell body upper support body, 5-2 parts of an inner shell body lower support body, 5-3 parts of an inner shell body cross-shaped framework, 5-4 parts of an inner shell body side wall, 5-4-1 parts of an inner shell body side wall pressure relief hole, 6 parts of a first detonation chamber, 6-1 parts of a first detonation chamber delay tube, 6-2 parts of a first detonation chamber baffle, 6-3 parts of a first detonation chamber baffle bonding part, 6-4 parts of a first detonation chamber detonation tube, 6-5 parts of a first detonation chamber pressure relief agent, 6-6 parts of a first detonation chamber flashing agent, 7. the second detonation chamber, 7-1, second detonation chamber delay tube, 7-2, second detonation chamber baffle, 7-3, second detonation chamber baffle bonding site, 7-4, second detonation chamber detonation tube, 7-5, second detonation chamber detonation agent, 7-6, second detonation chamber flash agent, 8, first detonation chamber, 8-1, first detonation chamber delay tube, 8-2, first detonation chamber baffle, 8-3, first detonation chamber baffle bonding site, 8-4 parts of first explosion cavity expanding tube, 8-5 parts of first explosion cavity expanding medicine, 8-6 parts of first explosion cavity OC stimulating powder, 9 parts of second explosion cavity, 9-1 parts of second explosion cavity expanding tube, 9-2 parts of second explosion cavity baffle, 9-3 parts of second explosion cavity baffle bonding parts, 9-4 parts of second explosion cavity expanding tube, 9-5 parts of second explosion cavity expanding medicine, 9-6 parts of second explosion cavity OC stimulating powder.

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. 1-11, the present invention provides a technical solution: baffle-type follow-up hand-thrown multi-cavity multi-sound antiriot bomb, comprises a safety mechanism 1, a pull ring 1-1, a safety pin 1-2, a safety handle 1-3, a safety handle vertical section 1-3-1, a safety handle horizontal section 1-3-2, a firing mechanism 2, a firing seat 2-1, a firing seat external screw thread 2-1-1, a turning plate firing pin 2-2, a torsion spring 2-3, a firing pin rotating shaft 2-4, a delay fire cap 2-5, a separation mechanism 3, a separation mechanism connector 3-1, a separation mechanism connector internal screw thread 3-1-1, a separation mechanism bonding part 3-2, a separation mechanism explosion-expanding medicine box 3-3, a separation mechanism explosion-expanding medicine 3-3-1, a hot-melt sealing cover foil 3-3-2, a shell 4, a shell upper neck 4-1 and an inner elastomer abutting part 4-2 the shell bottom cover 4-3, the shell bottom cover connecting screw thread 4-3-1, the shell side wall pressure relief hole 4-4, the high temperature resistant rubber plug 4-5, the inner elastomer upper support 5-1, the inner elastomer lower support 5-2, the inner elastomer cross skeleton 5-3, the inner elastomer side wall 5-4, the inner elastomer side wall pressure relief hole 5-4-1, the first detonation chamber 6, the first detonation chamber delay tube 6-1, the first detonation chamber baffle 6-2, the bonding part 6-3 of the first detonation chamber baffle, the first detonation chamber explosion expansion tube 6-4, the first detonation chamber explosion expansion agent 6-5, the first detonation chamber flashing agent 6-6, the second detonation chamber 7, the second detonation chamber delay tube 7-1, the second detonation chamber baffle 7-2, the bonding part 7-3 of the second detonation chamber baffle, the second detonation chamber explosion expanding tube 7-4, the second detonation chamber explosion expanding agent 7-5, the second detonation chamber flashing agent 7-6, the first detonation chamber 8, the first detonation chamber delay tube 8-1, the first detonation chamber baffle 8-2, the bonding part 8-3 of the first detonation chamber baffle, the first detonation chamber explosion expanding tube 8-4 the explosion-proof and explosion-proof device comprises a first explosion-proof cavity expanding explosive 8-5, a first explosion-proof cavity OC stimulating powder 8-6, a second explosion-proof cavity 9, a second explosion-proof cavity delay tube 9-1, a second explosion-proof cavity baffle 9-2, a second explosion-proof cavity baffle bonding part 9-3, a second explosion-proof cavity expanding tube 9-4, a second explosion-proof cavity expanding explosive 9-5 and a second explosion-proof cavity OC stimulating powder 9-6; the method is characterized in that: the safety mechanism 1 comprises a pull ring 1-1, a safety pin 1-2, a safety handle 1-3, a safety handle vertical section 1-3-1 and a safety handle horizontal section 1-3-2, wherein the safety pin 1-2 is sleeved with the pull ring 1-1, the safety pin 1-2 penetrates through a firing seat 2-1 and the safety handle 1-3, the safety handle vertical section 1-3-1 is parallel to the central axis of an elastic shell 4, the lower side of the safety handle horizontal section 1-3-2 is abutted against a firing mechanism 2, the firing mechanism 2 comprises a firing seat 2-1, a firing seat external thread 2-1-1, a turning plate firing pin 2-2, a torsion spring 2-3, a firing pin rotating shaft 2-4 and a delay fire cap 2-5, the trigger seat 2-1 is fixedly connected with the separating mechanism 3 through an external thread 2-1-1 of the trigger seat and a thread 3-1-1 in the separating mechanism connecting body, the turning plate type firing pin 2-2 is pressed down by the safety pin 1-2 to be in a turning state and compresses the torsion spring 2-3, the firing pin rotating shaft 2-4 is a rotating shaft for the turning plate type firing pin 2-2 to rotate under force, the delay fire cap 2-5 is positioned in the trigger seat 2-1, after the turning plate type firing pin 2-2 rotates in place, the firing pin point of the turning plate type firing pin 2-2 just hits the center of the head of the delay fire cap 2-5, the separating mechanism 3 comprises a separating mechanism connecting body 3-1, a separating mechanism connecting body thread 3-1-1, a separating mechanism bonding part 3-2, a separating mechanism explosion expanding medicine box 3-3, the separating mechanism explosive-expanding agent 3-3-1 and the hot-melt sealing cover foil 3-3-2, the separating mechanism 3 is used for separating the ignition mechanism 2 and the shell 4, the bonding part 3-2 of the separating mechanism is attached to the inner wall of the upper neck 4-1 of the shell by hot-melt adhesive, the bottom end surface of the separating mechanism explosive-expanding agent box 3-3 is adhered and connected to the upper side of the upper supporting body 5-1 of the inner shell, the separating mechanism explosive-expanding agent 3-3 is internally provided with the separating mechanism explosive-expanding agent 3-3-1, the upper port of the separating mechanism explosive-expanding agent box 3-3 is sealed by the hot-melt sealing cover foil 3-3-2, the shell 4 comprises an upper neck 4-1 of the shell, an inner shell abutting part 4-2, a shell bottom 4-3, a connecting thread 4-3-1 of the shell bottom cover 4-3 and a pressure release hole 4-5 of the high-temperature resistant rubber plug 4-5, the upper cylinder of the shell 4 is of a double-cylinder structure, the upper neck 4-1 of the shell, the lower cylinder of the shell 4 is a cylinder of the upper neck 4-1 of the shell, the lower cylinder of the shell 4 is a bottom end surface of the lower cylinder 4 is a holding the lower cylinder of the inner shell 4, the inner shell 4-5 is provided with a cross thread, and the inner side wall 4-5 of the inner side wall 4-5 is connected to the inner side wall of the inner side of the shell 4-3-5 of the shell, and the inner side wall 4-3 is provided with the inner side wall of the inner side wall 4-sealing plug 4-5, and the inner side wall of the inner shell 4-3 is provided with the inner side sealing part 4-3, and the inner side wall sealing part 4, and the inner side wall of the inner shell 4 is provided with the inner side wall sealing part 4 side of the inner shell, and inner side wall sealing part 4 side of the inner shell 4 The inner elastomer side wall 5-4 and the inner elastomer side wall pressure relief hole 5-4-1, the inner elastomer upper support body 5-1 is propped against the lower side of the inner elastomer propping position 4-2, the inner elastomer cross-shaped framework 5-3 is welded on the lower side of the inner elastomer upper support body 5-1, the inner elastomer side wall 5-4 penetrates through the inner elastomer cross-shaped framework 5-3, the inner elastomer side wall 5-4 is provided with the inner elastomer side wall pressure relief hole 5-4-1, the inner elastomer cross-shaped framework 5-3 and the inner elastomer side wall 5-4 are clamped with the inner elastomer lower support body 5-2 on the lower side, the lower side of the inner elastomer lower support body 5-2 is propped against the shell bottom cover 4-3, and four closed cavities formed by the inner elastomer upper support body 5-1 and the inner elastomer lower support body 5-2 are sequentially in the clockwise direction: the first detonation chamber 6, the first detonation chamber 8, the second detonation chamber 7 and the second detonation chamber 9, the first detonation chamber 6 comprises a first detonation chamber delay tube 6-1, a first detonation chamber baffle 6-2, a first detonation chamber baffle bonding site 6-3, a first detonation chamber detonation tube 6-4, a first detonation chamber explosive 6-5 and a first detonation chamber flashing agent 6-6, the head of the first detonation chamber delay tube 6-1 is positioned in a separation mechanism detonation cartridge 3-3, the tail of the first detonation chamber delay tube 6-1 is inserted into the upper part of the first detonation chamber detonation tube 6-4, the first detonation chamber baffle 6-2 is clung to an inner elastomer side wall 5-4, the first detonation chamber baffle bonding site 6-3 is used for adhesively connecting the first detonation chamber baffle 6-2 with the inner elastomer cross-shaped skeleton 5-3, the upper end part of the first detonation cavity detonation tube 6-4 is welded to the lower end surface of the upper inner elastomer support 5-1, the lower end part of the first detonation cavity detonation tube 6-4 is clamped in the lower inner elastomer support 5-2, the first detonation cavity detonation tube 6-4 is internally provided with a first detonation cavity detonation agent 6-5, a cavity outside the first detonation cavity detonation tube 6-4 is filled with a first detonation cavity flash agent 6-6, the second detonation cavity 7 is positioned on the diagonal side of the first detonation cavity 6, the second detonation cavity 7 comprises a second detonation cavity delay tube 7-1, a second detonation cavity baffle 7-2, a second detonation cavity baffle bonding part 7-3, a second detonation cavity detonation tube 7-4, a second detonation cavity detonation agent 7-5 and a second detonation cavity flash agent 7-6, the head of the second detonation chamber delay tube 7-1 is positioned in the explosive box 3-3 of the separating mechanism, the tail of the second detonation chamber delay tube 7-1 is inserted into the upper part of the second detonation chamber delay tube 7-4, the second detonation chamber baffle 7-2 is tightly attached to the side wall 5-4 of the inner projectile, the bonding part 7-3 of the second detonation chamber baffle is used for connecting the second detonation chamber baffle 7-2 with the cross-shaped skeleton 5-3 of the inner projectile, the upper end part of the second detonation chamber delay tube 7-4 is welded to the lower end surface of the upper branch 5-1 of the inner projectile, the lower end part of the second detonation chamber delay tube 7-4 is clamped in the lower branch 5-2 of the inner projectile, the second detonation chamber delay tube 7-4 is internally provided with the second detonation chamber explosion medicament 7-5, the outer side cavity of the second detonation chamber delay tube 7-4 is filled with the second detonation chamber flash 7-6, the first detonation chamber delay tube 8 comprises a first explosion chamber 8-1, a first explosion chamber 8-2, a first explosion chamber 8-3, a first explosion chamber 8-3 and a second explosion chamber 8-3 are connected with the bonding part of the first explosion chamber 8-3, the first explosion chamber 8-4 is inserted into the side wall 5-4 of the first explosion chamber delay tube 8-4, the first explosion chamber 8-3 is tightly attached to the side wall of the first explosion chamber 8-4, the first explosion chamber 8-3 is positioned in the explosion chamber 8-4, the explosion chamber 8-3 is tightly, the first explosion chamber 8 is stimulated and the explosion chamber 8 is tightly, the explosion chamber 8 is stimulated and the explosion chamber 8 is separated by the explosion chamber and the explosion chamber is separated by the explosion chamber and the explosion tube 3, the upper end of the first explosion cavity expanding tube 8-4 is welded to the lower end face of the upper inner projectile body 5-1, the lower end of the first explosion cavity expanding tube 8-4 is clamped in the lower inner projectile body 5-2, a first explosion cavity expanding agent 8-5 is arranged in the first explosion cavity expanding tube 8-4, a first explosion cavity OC stimulating powder 8-6 is filled in a cavity outside the first explosion cavity expanding tube 8-4, the second explosion cavity 9 is positioned on the diagonal side of the first explosion cavity 8, the second explosion cavity 9 comprises a second explosion cavity delay tube 9-1, a second explosion cavity baffle 9-2, a second explosion cavity baffle plate 9-3, a second explosion cavity expanding tube 9-4, a second explosion cavity expanding agent 9-5 and a second explosion cavity OC stimulating powder 9-6, the head of the second explosion cavity delay tube 9-1 is positioned in a separation mechanism box 3, the second explosion cavity 9-4 is welded to the lower end face of the upper inner projectile body 5, the second explosion cavity 9-4 is clamped in the lower explosion cavity 9-2, the end face of the second explosion cavity 9 is welded to the lower explosion cavity 9-4, the end face of the lower explosion cavity 9-4 is welded to the lower inner projectile body 5, the end face of the second explosion cavity 9-4 is adhered to the lower explosion cavity 9-2, and the end face of the upper projectile body is adhered to the lower explosion body 5-2, and the cavity outside the second explosion accelerating cavity expanding tube 9-4 is filled with second explosion accelerating cavity OC stimulating powder 9-6.

Referring to fig. 1 and 3, the delay fire cap 2-5 is a needled delay fire cap, the head of the delay fire cap 2-5 is aligned with the top of the firing seat 2-1, the tail of the delay fire cap 2-5 faces to the separation mechanism to expand the explosive box 3-3, and the delay time of the delay fire cap 2-5 is 1.5S.

As shown in fig. 4, the heat-soluble sealing cover foil 3-3-2 is dissolved by being ablated by flame at the tail of the delay fire cap 2-5, and then the separation mechanism explosion-expanding agent 3-3-1 is ignited.

In this embodiment, the shell 4 and the inner shell body 5 are made of stainless steel materials, the high temperature resistant rubber plug 4-5 has a certain sealing effect on the shell 4, the high temperature resistant rubber plug 4-5 is not ablated under the action of high temperature and high pressure gas, and the high temperature resistant rubber plug 4-5 can be used as a target for pain caused by kinetic energy pellets after being flushed out.

As shown in fig. 6, the number of the side wall pressure relief holes 4-4 is 4 in the same axial direction of the side wall of the shell case 4, the number of the side wall pressure relief holes 4-4 in the same axial direction of the side wall of the shell case 4 form a side wall pressure relief hole group, the number of the side wall pressure relief hole group is 6, and the 6 side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the shell case 4.

As shown in FIG. 9, the diameter of the inner elastomer side wall 5-4 is 2/3 of the maximum outer diameter of the inner elastomer cross-shaped framework 5-3, 8 inner elastomer side wall pressure relief holes 5-4-1 are formed in the same axial direction of the inner elastomer side wall 5-4, 8 inner elastomer side wall pressure relief holes 5-4-1 in the same axial direction of the inner elastomer side wall 5-4 form an inner elastomer side wall pressure relief hole group, the number of the inner elastomer side wall pressure relief hole group is 12, the 12 inner elastomer side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the inner elastomer 5, and 3 inner elastomer side wall pressure relief hole groups are formed in two adjacent frameworks of the inner elastomer cross-shaped framework 5-3.

In this embodiment, the first detonation chamber baffle 6-2, the second detonation chamber baffle 7-2, the first detonation chamber baffle 8-2 and the second detonation chamber baffle 9-2 are arc-shaped long thin walls manufactured by processing polyvinyl chloride PVC materials, and the first detonation chamber baffle 6-2, the second detonation chamber baffle 7-2, the first detonation chamber baffle 8-2 and the second detonation chamber baffle 9-2 are used for sealing each chamber and preventing medicine in the chamber from leaking.

In this embodiment, the PVC baffle does not generate sharp fragments after blasting, and meanwhile, a larger gap is reserved between the side wall 5-4 of the inner elastomer and the shell 4, so that after the high-temperature-resistant rubber plug 4-5 is flushed out, the gas pressure and the gas temperature are greatly reduced, and the possibility of fire disaster initiation is greatly reduced.

Referring to fig. 7, 8, 9 and 10, the first detonation chamber 6 is formed by sealing two adjacent inner projectile body cross-shaped frameworks 5-3, 1/4 part inner projectile body side walls 5-4 clamped by the two adjacent inner projectile body cross-shaped frameworks 5-3, 1/4 part inner projectile body upper supports 5-1 and 1/4 part inner projectile body lower supports 5-2, and sealing the first detonation chamber 8, the second detonation chamber 7 and the second detonation chamber 9 in the same way as the sealing the first detonation chamber 6.

In this embodiment, the delay time of the first detonation chamber delay tube 6-1 is 1S, the delay time of the first detonation chamber delay tube 8-1 is 2S, the delay time of the second detonation chamber delay tube 7-1 is 3S, the delay time of the second detonation chamber delay tube 9-1 is 4S, and the first detonation chamber delay tube 6-1, the second detonation chamber delay tube 7-1, the first detonation chamber delay tube 8-1 and the second detonation chamber delay tube 9-1 are all obliquely inserted into the elastomer upper support body (5-1).

In this embodiment, the first detonation chamber detonation tube 6-4, the second detonation chamber detonation tube 7-4, the first detonation chamber detonation tube 8-4 and the second detonation chamber detonation tube 9-4 are all funnel-shaped hollow thin-wall structures, the side walls of the first detonation chamber detonation tube 6-4, the second detonation chamber detonation tube 7-4, the first detonation chamber detonation tube 8-4 and the second detonation chamber detonation tube 9-4 are densely provided with micro pressure relief holes, and the micro pressure relief Kong Caiyong hot melt adhesives on the side walls of the first detonation chamber detonation tube 6-4, the second detonation chamber detonation tube 7-4, the first detonation chamber detonation tube 8-4 and the second detonation chamber detonation tube 9-4 are sealed.

The specific implementation steps are as follows:

the invention is held by the right hand, the vertical section 1-3-1 of the safety handle is opposite to the jaw of the right hand, the index finger of the left hand pulls the pull ring 1-1 with force, the safety pin 1-2 is separated from the firing seat 2-1, the right hand is guided backwards to bounce, the invention is thrown towards the target area with force, then the turning plate firing pin 2-2 rotates anticlockwise along the firing pin rotating shaft 2-4 under the action of the spring force of the torsion spring 2-3, the safety handle 1-3 is separated from the invention, the turning plate firing pin 2-2 punctures the delay fire cap 2-5, the delay fire cap 2-5 is delayed, the tail is ignited, the hot-melt sealing cover foil 3-3-2 is ablated, then the separating mechanism in the separating mechanism explosion expanding medicine box 3-3 1 is ignited, the separation mechanism explosive 3-3-1 burns violently to generate a large amount of high-temperature and high-pressure fuel gas, the hot melt adhesive at the bonding part 3-2 of the separation mechanism is ablated, so that the ignition mechanism 2 is separated from the cartridge case 4 together with the separation mechanism connector 3-1, the separation mechanism explosive 3-3-1 burns and simultaneously burns the first detonation chamber delay tube 6-1, the first detonation chamber delay tube 8-1, the second detonation chamber delay tube 7-1 and the second detonation chamber delay tube 9-1 at the same time, after the delay time of 1S, the tail part of the first detonation chamber delay tube 6-1 fires to ignite the first detonation chamber explosive 6-5 in the first detonation chamber delay tube 6-4, the first detonation chamber explosive 6-5 burns violently to generate high-temperature and high-pressure fuel gas, the hot melt adhesive in the side wall pressure relief hole of the first detonation chamber explosion tube 6-4 is ablated, the first detonation chamber flash agent 6-6 is ignited, and then the pressure in the first detonation chamber 6 and the corresponding outer side cavity is gradually increased, the high temperature resistant rubber plug 4-5 in the side wall pressure relief hole 4-4 of the corresponding cartridge case 4 is punched, the high temperature resistant rubber plug 4-5 achieves kinetic energy striking to the target, meanwhile, strong explosion sound and dazzling flash are emitted from the side wall pressure relief hole 4-4 of the cartridge case, a larger deterrent is formed to the target, after 1S, the tail of the first detonation chamber delay tube 8-1 fires, the first detonation chamber explosion agent 8-5 in the first detonation chamber explosion tube 8-4 is ignited, the first detonation chamber explosion agent 8-5 is violently burnt to generate high temperature and high pressure gas, ablating hot melt adhesive in the side wall pressure release holes of the first explosion cavity explosion expanding tube 8-4, igniting the first explosion cavity OC stimulating powder 8-6, then gradually increasing the pressure in the first explosion cavity 8 and the corresponding outer cavity thereof, flushing out the high temperature resistant rubber plug 4-5 in the side wall pressure release holes 4-4 of the corresponding cartridge case 4, enabling the high temperature resistant rubber plug 4-5 to realize kinetic energy striking on a target, ejecting stimulating aerosol from the side wall pressure release holes 4-4 of the cartridge case, forming tear gas to disperse the target, igniting the tail of the second explosion cavity delay tube 7-1 after 1S, igniting the second explosion cavity explosion expanding agent 7-5 in the second explosion cavity explosion expanding tube 7-4, violently combusting the second explosion cavity explosion expanding agent 7-5 to generate high temperature and high pressure gas, ablating the hot melt adhesive in the side wall pressure release holes of the second explosion cavity explosion expanding tube 7-4, the second detonation chamber flash agent 7-6 is ignited, then, the pressure in the second detonation chamber 7 and the corresponding outside cavity is gradually increased, the high-temperature resistant rubber plug 4-5 in the shell side wall pressure release hole 4-4 of the corresponding shell 4 is flushed out, kinetic energy striking is realized on the target by the high-temperature resistant rubber plug 4-5, meanwhile, strong bursting sound and dazzling flash light are emitted from the shell side wall pressure release hole 4-4, a large deterrent is formed on the target, after 1S, the tail of the second detonation chamber delay tube 9-1 fires, the second detonation chamber explosion agent 9-5 in the second detonation chamber explosion tube 9-4 is ignited, the second detonation chamber explosion agent 9-5 is violently burnt to generate high-temperature high-pressure fuel gas, the hot melt adhesive in the second detonation chamber explosion tube 9-4 side wall pressure release hole is ablated, then, the pressure in the second detonation chamber 9-4 and the corresponding outside cavity is gradually increased, the pressure in the corresponding shell side wall 4-4 is flushed out, the high-temperature resistant rubber plug 4 is stimulated to realize the high-temperature resistant striking, and the high-temperature resistant rubber plug 4 is simultaneously, the high-temperature resistant rubber plug 4 is blown out from the shell side wall 4-4, and the high-temperature resistant rubber plug 4 is stimulated to release the high-temperature resistant to the target. When the explosion happens, the projectile body randomly moves towards the opposite direction of the explosion, so that the projectile body is difficult to pick up and return.

When tactical intrusion or large-scale group riot and nuisance event treatment is carried out, the invention has multiple non-lethal effects such as deterrence, glare, tear stimulation, pain and the like, and has superior tactical performance. The maximum tactical performance of the invention is difficult to realize due to the limited throwing distance by adopting a hand throwing mode, and the tactical performance of the invention can be obviously improved by throwing by means of the muzzle transmitter, so that the invention can play a larger dispersing effect in medium and remote anti-riot combat.

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 (7)

1. Baffle type follow-up hand is thrown multicavity and is made many sound riot bullet includes: the safety mechanism (1), the pull ring (1-1), the safety pin (1-2), the safety handle (1-3), the vertical section of the safety handle (1-3-1), the horizontal section of the safety handle (1-3-2), the firing mechanism (2), the firing seat (2-1), the external screw thread of the elastic shell (2-1-2), the turning plate firing pin (2-2), the torsion spring (2-3), the firing pin rotating shaft (2-4), the delay fire cap (2-5), the separation mechanism (3), the separation mechanism connecting body (3-1), the internal screw thread of the separation mechanism connecting body (3-1), the bonding part of the separation mechanism (3-2), the separation mechanism explosion-expanding medicine box (3-3-1), the separation mechanism explosion-expanding medicine (3-3-1), the heat-soluble sealing cover foil (3-3-2), the elastic shell (4), the upper neck part of the elastic shell (4-1), the internal elastic shell body, the internal abutting part (4-2), the elastic shell bottom cover (4-3), the connecting screw thread of the elastic shell, the elastic shell side wall hole (4-4), the high-temperature resistant rubber plug (4-5), the internal branch elastic shell body (5) and the internal branch (5-2) of the high-temperature elastic shell body, the explosion-proof device comprises an inner elastomer cross-shaped framework (5-3), an inner elastomer side wall (5-4), an inner elastomer side wall pressure relief hole (5-4-1), a first explosion cavity (6), a first explosion cavity delay tube (6-1), a first explosion cavity baffle (6-2), a first explosion cavity baffle bonding part (6-3), a first explosion cavity expansion tube (6-4), a first explosion cavity explosion-proof medicine (6-5), a first explosion cavity flash (6-6), a second explosion cavity (7), a second explosion cavity delay tube (7-1), a second explosion cavity baffle (7-2), a second explosion cavity baffle bonding part (7-3), a second explosion cavity expansion tube (7-4), a second explosion cavity flash (7-5), a second explosion cavity flash (7-6), a first explosion cavity (8), a first explosion cavity expansion tube (8-1), a first explosion cavity baffle (8-2), a first explosion cavity baffle bonding part (8-3), a first explosion cavity flash (8-4), a first explosion cavity (8-9), a second explosion cavity (8-2), a second explosion cavity (8-9) and a second explosion cavity (8-9), the bonding part (9-3) of the second explosion cavity baffle, the second explosion cavity expanding tube (9-4), the second explosion cavity expanding medicine (9-5) and the second explosion cavity OC stimulating powder (9-6); the method is characterized in that: the safety mechanism (1) comprises a pull ring (1-1), a safety pin (1-2), a safety handle (1-3), a safety handle vertical section (1-3-1) and a safety handle horizontal section (1-3-2), the safety pin (1-2) is sleeved with the pull ring (1-1), the safety pin (1-2) penetrates through a firing seat (2-1) and the safety handle (1-3), the safety handle vertical section (1-3-1) is parallel to the central axis of a shell (4), the lower side of the safety handle horizontal section (1-3-2) is abutted against a firing mechanism (2), the firing mechanism (2) comprises a firing seat (2-1), a firing seat external thread (2-1-1), a turning plate firing pin (2-2), a torsion spring (2-3), a firing pin rotating shaft (2-4) and a delay firing cap (2-5), the firing seat (2-1) is connected with the firing pin (2-1) in a separation mode through the firing seat external thread (2-1-1) and a separation mechanism connecting body internal thread (3-1-1) to be separated from the firing pin (2-3-2) and is fixedly connected with the turning plate firing mechanism (2-2) in a compression state, the firing pin rotating shaft (2-4) is a rotating shaft for the forced rotation of the firing pin (2-2), the delay fire cap (2-5) is positioned in the firing seat (2-1), after the firing pin (2-2) rotates in place, the firing tip of the firing pin (2-2) just hits the center of the head of the delay fire cap (2-5), the delay fire cap (2-5) is a needle-punched delay fire cap, the head of the delay fire cap (2-5) is aligned with the top of the firing seat (2-1), the tail of the delay fire cap (2-5) faces to the separating mechanism explosive box (3-3), the delay time of the delay fire cap (2-5) is 1.5S, the separating mechanism (3) comprises a separating mechanism connecting body (3-1), a thread (3-1-1) in the separating mechanism connecting body, a separating mechanism bonding part (3-2), a separating mechanism explosive box (3-3), a separating mechanism (3-3) and a thermal-3-sealing cover (4) are used for bonding the inner wall of the thermal-explosive box (2-3) and the thermal-explosion-3-4 shell (2) on the thermal-explosion-4, the bottom end surface of the separation mechanism explosive expanding medicine box (3-3) is adhered and connected to the upper side of an inner elastomer upper support body (5-1), the separation mechanism explosive expanding medicine box (3-3) is internally provided with the separation mechanism explosive expanding medicine (3-3-1), the upper port of the separation mechanism explosive expanding medicine box (3-3) is sealed by a heat-soluble sealing cover foil (3-3-2), the shell (4) comprises an upper shell neck (4-1), an inner elastomer abutting part (4-2), a shell bottom cover (4-3), a shell bottom cover connecting thread (4-3-1), a shell side wall pressure release hole (4-4) and a high temperature resistant rubber plug (4-5), the shell (4) is of a double-cylinder structure, the upper cylinder of the shell (4) is of the shell neck (4-1), the lower cylinder of the shell (4) is a body which is held during throwing, the lower end surface of the upper neck (4-1) is the inner elastomer abutting part (4-2), the shell bottom cover (4-3) is fixedly connected with the side wall (4-5) of the shell side wall (4-5) through the shell bottom cover connecting thread (4-1), an inner elastomer (5) is arranged on the inner central axis of the elastomer shell (4), the inner elastomer (5) comprises an inner elastomer upper support (5-1), an inner elastomer lower support (5-2), an inner elastomer cross-shaped framework (5-3), an inner elastomer side wall (5-4) and an inner elastomer side wall pressure relief hole (5-4-1), the inner elastomer upper support (5-1) is propped against the lower side of an inner elastomer propping position (4-2), the inner elastomer cross-shaped framework (5-3) is welded on the lower side of the inner elastomer upper support (5-1), the inner elastomer side wall (5-4) penetrates through the inner elastomer cross-shaped framework (5-3), the inner elastomer side wall (5-4) is provided with the inner elastomer side wall pressure relief hole (5-4-1), the inner elastomer lower support (5-2) is clamped on the lower side of the inner elastomer side wall (5-3) and the lower side of the inner elastomer side wall (5-4), the inner elastomer lower support (5-2) is propped against the lower side of the inner elastomer lower support (4-3), the elastomer side of the inner elastomer shell (5-4) can be used as a high-temperature resistant ball, the high-temperature resistant high-pressure resistant rubber plug (4) can be extruded by high temperature resistant rubber balls and can not be extruded by the high temperature resistant elastomer plug (4), the four closed cavities formed by the cross-shaped framework (5-3) of the inner elastomer, the side wall (5-4) of the inner elastomer, the upper support (5-1) of the inner elastomer and the lower support (5-2) of the inner elastomer are sequentially formed in the clockwise direction: the first detonation chamber (6), the first detonation chamber (8), the second detonation chamber (7) and the second detonation chamber (9), wherein the first detonation chamber (6) comprises a first detonation chamber delay tube (6-1), a first detonation chamber baffle (6-2), a first detonation chamber baffle bonding site (6-3), a first detonation chamber expanding tube (6-4), a first detonation chamber expanding agent (6-5) and a first detonation chamber flashing agent (6-6), the head part of the first detonation chamber delay tube (6-1) is positioned in a separation mechanism detonation chamber expanding box (6-6), the tail part of the first detonation chamber delay tube (6-1) is inserted into the upper part of the first detonation chamber expanding tube (6-4), the first detonation chamber baffle (6-2) is tightly attached to the side wall (5-4) of an inner projectile body, the first detonation chamber baffle bonding site (6-3) is used for adhesively connecting the first framework chamber baffle (6-2) with the inner detonation body (5-3), the upper detonation chamber expanding tube (6-1) is arranged at the upper end part of the first detonation chamber expanding tube (6-4) and the lower detonation chamber expanding tube (6-4) is arranged at the inner end part (5-4), the first detonation chamber (6-4) is filled with a first detonation chamber flash agent (6-6), the second detonation chamber (7) is positioned on the diagonal side of the first detonation chamber (6), the second detonation chamber (7) comprises a second detonation chamber delay tube (7-1), a second detonation chamber baffle (7-2), a second detonation chamber baffle bonding site (7-3), a second detonation chamber detonation tube (7-4), a second detonation chamber flash agent (7-5) and a second detonation chamber flash agent (7-6), the head of the second detonation chamber delay tube (7-1) is positioned in a separation mechanism detonation cartridge (3-3), the tail of the second detonation chamber delay tube (7-1) is inserted into the upper part of the second detonation chamber (7-4), the second detonation chamber baffle (7-2) is tightly adhered to the inner side wall (5-4), the second detonation chamber baffle bonding site (7-3) connects the second detonation chamber (7-2) with the upper end surface of the second detonation chamber (5-4) in a welding manner, the lower detonation chamber (7-2) is adhered to the lower end surface of the second detonation chamber (5-4) in the inner detonation chamber (5-4), the explosion tube (7-4) is internally provided with a second explosion cavity expanding agent (7-5), the cavity outside the second explosion cavity expanding agent (7-4) is filled with a second explosion cavity flash agent (7-6), the first explosion cavity (8) comprises a first explosion cavity expanding agent (8-1), a first explosion cavity baffle (8-2), a first explosion cavity baffle bonding part (8-3), a first explosion cavity expanding agent (8-4), a first explosion cavity expanding agent (8-5) and a first explosion cavity OC stimulating powder (8-6), the head part of the first explosion cavity expanding agent (8-1) is positioned in a separation mechanism explosion agent box (3-3), the tail part of the first explosion cavity expanding agent (8-1) is inserted into the upper part of the first explosion cavity expanding agent box (8-4), the first explosion cavity baffle (8-2) is tightly attached to the inner side wall (5-4), the first explosion cavity baffle (8-3) is bonded with the inner end face of the first explosion cavity (8-4), the upper end face of the first explosion cavity (8-3) is bonded with the inner end face of the first explosion cavity (4) at the lower end face of the first explosion cavity (8-4), the first explosion cavity expanding tube (8-4) is internally provided with a first explosion cavity expanding explosive (8-5), a cavity outside the first explosion cavity expanding tube (8-4) is filled with first explosion cavity OC stimulating powder (8-6), the second explosion cavity (9) is positioned at the opposite angle side of the first explosion cavity (8), the second explosion cavity (9) comprises a second explosion cavity delay tube (9-1), a second explosion cavity baffle (9-2), a second explosion cavity baffle bonding part (9-3), a second explosion cavity expanding tube (9-4), a second explosion cavity expanding explosive (9-5) and a second explosion cavity OC stimulating powder (9-6), the head part of the second explosion cavity delay tube (9-1) is positioned in a separation mechanism explosion medicine box (3-3), the tail part of the second explosion cavity expanding tube (9-1) is inserted into the second explosion cavity tube (9-4), the upper explosion cavity baffle bonding part (9-3) is tightly adhered to the inner side wall of the second explosion cavity (9-4), the lower end face of the second explosion cavity (9-4) is tightly adhered to the inner side wall of the second explosion cavity (9-5) and the inner side wall of the second explosion cavity (3-4), the lower end part of the second explosion accelerating cavity expanding tube (9-4) is clamped inside the lower support body (5-2) of the inner elastomer, the second explosion accelerating cavity expanding tube (9-4) is internally provided with a second explosion accelerating cavity expanding drug (9-5), and a cavity outside the second explosion accelerating cavity expanding tube (9-4) is filled with second explosion accelerating cavity OC stimulating powder (9-6).

2. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the side wall pressure relief holes (4-4) are formed in the same axial direction of the side wall of the shell case (4), the side wall pressure relief holes (4-4) in the same axial direction of the side wall of the shell case (4) form a side wall pressure relief hole group, the number of the side wall pressure relief hole groups is 6, and the 6 side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the shell case (4).

3. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the diameter of the circle surrounded by the inner elastomer side wall (5-4) is 2/3 of the maximum outer diameter of the inner elastomer cross-shaped framework (5-3), 8 inner elastomer side wall pressure relief holes (5-4-1) are formed in the same axial direction of the inner elastomer side wall (5-4), 8 inner elastomer side wall pressure relief holes (5-4-1) in the same axial direction of the inner elastomer side wall (5-4) form an inner elastomer side wall pressure relief hole group, the number of the inner elastomer side wall pressure relief hole groups is 12, the 12 inner elastomer side wall pressure relief hole groups are distributed in a circumferential array along the central axis of the inner elastomer (5), and 3 inner elastomer side wall pressure relief hole groups are formed in two adjacent frameworks of the inner elastomer cross-shaped framework (5-3).

4. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the first detonation cavity baffle (6-2), the second detonation cavity baffle (7-2), the first detonation cavity baffle (8-2) and the second detonation cavity baffle (9-2) are arc-shaped long thin walls manufactured by processing polyvinyl chloride (PVC) materials, and the first detonation cavity baffle (6-2), the second detonation cavity baffle (7-2), the first detonation cavity baffle (8-2) and the second detonation cavity baffle (9-2) are used for sealing all cavities and preventing medicine in the cavities from leaking.

5. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the first detonation chamber (6) is formed by sealing the adjacent two inner projectile body cross-shaped frameworks (5-3), 1/4 part inner projectile body side walls (5-4) clamped by the adjacent two inner projectile body cross-shaped frameworks (5-3), 1/4 part inner projectile body upper supports (5-1) and 1/4 part inner projectile body lower supports (5-2), and the sealing formation modes of the first detonation chamber (8), the second detonation chamber (7) and the second detonation chamber (9) are the same as the sealing formation modes of the first detonation chamber (6).

6. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the delay time of the first detonation cavity delay tube (6-1) is 1S, the delay time of the first detonation cavity delay tube (8-1) is 2S, the delay time of the second detonation cavity delay tube (7-1) is 3S, the delay time of the second detonation cavity delay tube (9-1) is 4S, and the first detonation cavity delay tube (6-1), the second detonation cavity delay tube (7-1), the first detonation cavity delay tube (8-1) and the second detonation cavity delay tube (9-1) are obliquely inserted into the inner elastomer upper support body (5-1).

7. The baffle-type follow-up manual multi-cavity multi-sound antiriot bomb according to claim 1, wherein: the first detonation cavity detonation tube (6-4), the second detonation cavity detonation tube (7-4), the first detonation cavity detonation tube (8-4) and the second detonation cavity detonation tube (9-4) are of funnel-shaped hollow thin-wall structures, micro pressure release holes are densely formed in the side walls of the first detonation cavity detonation tube (6-4), the second detonation cavity detonation tube (7-4), the first detonation cavity detonation tube (8-4) and the second detonation cavity detonation tube (9-4), and micro pressure release Kong Caiyong hot melt adhesives on the side walls of the first detonation cavity detonation tube (6-4), the second detonation cavity detonation tube (7-4), the first detonation cavity detonation tube (8-4) and the second detonation cavity detonation tube (9-4) are sealed.