CN113091507B

CN113091507B - High-pressure gun for police

Info

Publication number: CN113091507B
Application number: CN202110365614.XA
Authority: CN
Inventors: 洪慧; 龙双艳; 曹展鹏; 杨政清; 杨林松; 阿克交力·克外
Original assignee: Hunan Institute of Technology
Current assignee: Hunan Institute of Technology
Priority date: 2021-04-06
Filing date: 2021-04-06
Publication date: 2022-08-19
Anticipated expiration: 2041-04-06
Also published as: CN113091507A

Abstract

A police high-pressure gun comprises a gun body, a launching mechanism arranged in the gun body and a launching device arranged on the gun body and launched by the launching mechanism, wherein the gun body is provided with a plurality of shooting holes; the gun body comprises a gun body, a gun handle arranged at the tail part of the gun body, a trigger arranged in the middle of the gun body and close to the gun handle, and a gun barrel arranged at the front end of the gun body, wherein the gun barrel is a Y-shaped gun barrel formed by a first emission port and a second emission port; the launching mechanism comprises a gas collecting and containing device, a high-pressure gas containing device, an ejection device and a shell pulling device, wherein the gas collecting and containing device is arranged inside a gun body and used for collecting gas, the high-pressure gas containing device is arranged inside the gun body and positioned above the gas collecting and containing device and used for forming high-pressure gas from the gas inside the gas collecting and containing device, the ejection device is arranged inside the gun body and positioned above a gun handle and a trigger and used for hammering the high-pressure gas containing device, and the shell pulling device is arranged inside the gun body and positioned above the ejection device and used for pulling the ejection device and enabling the ejection device to be clamped in a trigger buckle.

Description

High-pressure gun for police

Technical Field

The invention relates to the military field, in particular to a police high-pressure gun for maintaining social safety.

Background

Police, special police, help police, security guards are personnel who maintain national security and social security, often contact criminals in a short distance when controlling offensive social criminals, and even bring certain danger to the life of the police under the condition that the criminals have destructive weapons such as a knife, so that the use of firearms is inevitable due to the requirements of police officers under special conditions; however, China has strict regulations on the storage and use of firearms, and meanwhile, the use problems of the firearms are pushed to the wave tip of the tuyere by a plurality of factors considered in the gun-related link. Therefore, the invention provides a police high-pressure gun which can play a gun role and reduce the social hazard, and the invention provides a police high-pressure gun which can control criminals in a lasso or electric shock mode, eliminates the offensive of the criminals while avoiding danger for the polices because of long-distance shooting, lassoing a target person to prevent the target person from moving when the gun is in the lasso state, does not cause great damage to the body of the target person when the target person is shot in the electric shock state to eliminate the offensive state, and protects the life safety of the polices.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a police high-pressure gun.

In order to realize the purpose of the invention, the invention adopts the following technical scheme:

a police high-pressure gun comprises a gun body, a launching mechanism arranged in the gun body and a launching device arranged on the gun body and launched by the launching mechanism, wherein the gun body is provided with a plurality of shooting holes; the gun body comprises a gun body, a gun handle arranged at the tail part of the gun body, a trigger arranged in the middle of the gun body and close to the gun handle, and a gun barrel arranged at the front end of the gun body, wherein the gun barrel is a Y-shaped gun barrel consisting of a first emission port and a second emission port; the launching mechanism comprises a gas collecting and accommodating device, a high-pressure gas accommodating device, an ejection device and a shell pulling device, wherein the gas collecting and accommodating device is arranged in the gun body and used for collecting gas, the high-pressure gas accommodating device is arranged in the gun body and is positioned above the gas collecting and accommodating device and used for forming high-pressure gas from the gas in the gas collecting and accommodating device, the ejection device is arranged in the gun body and is positioned above the gun handle and the trigger and used for hammering the high-pressure gas accommodating device, and the shell pulling device is arranged in the gun body and is positioned above the ejection device and used for pulling the ejection device and enabling the ejection device to be clamped in the trigger buckle; the gas collecting and accommodating device is communicated with the high-pressure gas accommodating device through a pipeline, and the high-pressure gas accommodating device is communicated with the gun barrel through a high-pressure gas pipe;

the gas collecting and accommodating device comprises a gas collecting and accommodating cavity, a first piston, a gas collecting handle and a first spring are arranged in the gas collecting and accommodating cavity, and a transverse notch is formed in one end, close to the trigger, of the bottom of the gas collecting and accommodating cavity; the first piston is arranged at one end close to the air inlet of the pipeline; the gas collection handle is C-shaped, one end of the gas collection handle penetrates through a transverse notch in the bottom of the gas collection accommodating cavity and extends to the outside of the gun body, the front end of the gas collection handle is fixedly connected with the first piston, the rear end of the gas collection handle is fixedly connected with the first spring, and the first spring is far away from one end of the gas collection handle and the cavity wall of the gas collection accommodating cavity.

The high-pressure gas accommodating device comprises a high-pressure gas accommodating cavity, a second piston, a second spring, a third piston and a piston rod are arranged in the high-pressure gas accommodating cavity, the second piston is arranged at one end close to the gas outlet of the pipeline, the third piston is arranged at one end far away from the gas outlet of the pipeline, the second piston and the third piston are fixedly connected through the second spring, the piston rod is fixedly arranged on the third piston far away from the second spring, and the piston rod penetrates through the high-pressure gas accommodating cavity and extends towards the direction of the ejection device; the high-pressure gas holds the chamber and is close to the diameter that high-pressure gas holds chamber both ends tip is greater than high-pressure gas holds the diameter that chamber both ends and high-pressure gas hold the chamber middle part.

In one embodiment, the ejection device comprises an ejection pipe, wherein a third spring, a metal cylinder and a through hole for clamping the metal cylinder by the trigger buckle are arranged in the ejection pipe; one end of the third spring is fixed on the ejection pipeline, the other end of the third spring is fixedly connected with the metal cylinder, and the metal cylinder can be hammered on the piston rod through the elastic force of the third spring.

In an embodiment, the casing pulling device includes a casing capable of sliding on the gun body, wherein a groove is formed in the gun body below the casing, a transverse notch penetrating through the gun body and extending to the ejection pipeline is formed in the bottom of the groove, a cylindrical pulling rod capable of sliding in the transverse notch is arranged in the groove, the top of the cylindrical pulling rod is fixedly connected with the casing, the bottom end of the cylindrical pulling rod can be clamped with the metal cylinder, and the casing is slid to enable the cylindrical pulling rod to pull the metal cylinder to be clamped in the trigger buckle.

In one embodiment, the launching device comprises a first bullet body and a second bullet body which are arranged in the first launching port and the second launching port, the outer layer of the tail of the first bullet body and the outer layer of the tail of the second bullet body are made of rubber materials, the inner layers of the tail of the first bullet body and the tail of the second bullet body are made of metal, the front ends of the first bullet body and the second bullet body are both provided with a first hook, and the first bullet body and the second bullet body are connected through a first elastic steel wire.

In one embodiment, the launching device comprises a shell assembly fixed on the gun body through a buckle or a screw, and a power supply device fixed below the shell assembly, wherein the shell assembly comprises a through pipe communicated with the gun barrel, the through pipe is an H-shaped through pipe formed by a first through pipe and a second through pipe, and a first metal thread and a second metal thread are respectively arranged in the first through pipe and the second through pipe; the power supply device comprises a power supply and a power supply button for controlling the power supply, and the output end of the power supply is respectively connected with the first metal thread and the second metal thread through two wires.

In one embodiment, the launching device further comprises a third bullet body and a fourth bullet body which are in threaded connection with the first metal thread and the second metal thread, wherein second hooks are arranged at the front ends of the third bullet body and the fourth bullet body, and the third bullet body and the fourth bullet body are connected through a second elastic steel wire.

In one embodiment, an adjusting device for controlling the range of the high-pressure gun is arranged above the gun barrel, the adjusting device comprises a threaded through hole which penetrates through the gun body from the top of the gun body and extends out of the gun barrel, and a screw arranged in the threaded through hole, wherein a graduated scale is arranged outside the screw, and a through hole for discharging high-pressure gas is arranged at the threaded part.

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

1. the police high-pressure gun can convert external gas into high-pressure gas through the emission mechanism in the gun body, and can emit the emission device on the gun body at a long distance through the high-pressure gas, so that when social security is maintained, criminals can be controlled through the emission device.

2. The police high-pressure gun has the advantages of simple structure, convenient operation and wide action range, can remotely launch the lasso device and the electric shock device in the using process, does not need to closely contact a target, greatly improves the using safety and effectiveness, and ensures the personal safety of law enforcement personnel.

Drawings

Fig. 1 is an overall schematic view of embodiment 1.

Fig. 2 is a schematic view of the barrel structure of the present invention.

Fig. 3 is a schematic structural diagram of a transmitting device in embodiment 1.

Fig. 4 is a schematic structural diagram of the transmitting apparatus according to embodiment 1.

Fig. 5 is a schematic structural view of embodiment 1.

Fig. 6 is a schematic view of the structure of the gas collection container and the high-pressure gas container according to the present invention.

Fig. 7 is a schematic structural view of the high-pressure gas containing device and the ejection device of the invention.

Fig. 8 is a schematic view of the overall structure of the housing pulling device of the present invention.

Fig. 9 is a schematic structural view of the housing pulling device of the present invention.

FIG. 10 is a schematic view of an adjusting device according to the present invention.

FIG. 11 is a schematic view of the internal structure of the adjusting device of the present invention.

Fig. 12 is a schematic view of a screw structure of the adjusting device of the present invention.

Fig. 13 is a schematic view of the entire structure of example 2.

Fig. 14 is a schematic structural view of a barrel and shell assembly of embodiment 2.

Fig. 15 is an overall schematic view of a housing assembly of embodiment 2.

FIG. 16 is a schematic view of the structure of the housing assembly of embodiment 2

Fig. 17 is a schematic structural view of example 2.

Fig. 18 is a schematic structural diagram of a transmitting device of example 2.

In the figure: 1. a pipeline, 2, a high-pressure air pipe, 3, a third bullet body, 4, a fourth bullet body, 5, a second hook, 6, a second elastic steel wire, 10, a gun body, 11, a gun body, 12, a gun handle, 13, a trigger, 14, a gun barrel, 15, a first shooting port, 16, a second shooting port, 17, a threaded through hole, 18, a screw, 20, a gas collection containing device, 21, a gas collection containing cavity, 22, a first piston, 23, a gas collection handle, 24, a first spring, 30, a high-pressure gas containing device, 31, a high-pressure gas containing cavity, 32, a second piston, 33, a second spring, 34, a third piston, 35, a piston rod, 40, an ejection device, 41, an ejection pipeline, 42, a third spring, 43, a metal cylinder, 50, a shell pulling device, 51, a shell, 52, a groove, 53, a cylinder pulling rod, 60, a first bullet body, 61, and a second bullet body, 62. the device comprises a first hook 63, a first elastic steel wire 71, a shell component 72, a through pipe 73, a first through pipe 74, a second through pipe 75, a first metal thread 76, a second metal thread 77, a power supply 78, a power supply button 79 and a lead.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments. In the following description, specific details, such as specific configurations and components, are provided only to facilitate a thorough understanding of embodiments of the present invention. Thus, it will be apparent to those skilled in the art that various changes and modifications may be made to the embodiments described herein without departing from the scope and spirit of the invention. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present invention, it should be understood that the sequence numbers of the following processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present invention.

It should be understood that the term "and/or" herein is merely one type of association relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship.

In the embodiments provided herein, it should be understood that "B corresponding to a" means that B is associated with a from which B can be determined. It should also be understood that determining B from a does not mean determining B from a alone, but may be determined from a and/or other information.

Example 1

As shown in fig. 1, a high pressure gun for police comprises a gun body 10, a firing mechanism disposed inside the gun body 10, and a firing device disposed on the gun body 10 and fired by the firing mechanism, specifically, as shown in the figure, the gun body 10 includes a gun body 11, a gun handle 12, a trigger 13, and a gun barrel 14, the gun handle 12 is disposed at the rear of the gun body 11, the gun barrel 14 is disposed at the front of the gun body 11, and the trigger 13 is disposed at the middle of the gun body 11 and near the gun handle 12.

As further shown in fig. 2, the barrel 14 is a "Y" shaped barrel 14 formed by a first port 15 and a second port 16, and the angle between the first port 15 and the second port 16 is 20 °.

Further, the firing device is disposed in the first and

second firing ports

15 and 16, and specifically, as shown in fig. 3, the firing device includes a first and

second cartridge bodies

60 and 61 disposed in the first and

second firing ports

15 and 16, and the outer layers of the tails of the first and

second cartridge bodies

60 and 61 are made of rubber material, and the inner layers are made of metal, so that the first and

second cartridge bodies

60 and 61 are respectively inserted into the first and

second firing ports

15 and 16 of the gun, and since the tails of the first and

second cartridge bodies

60 and 61 are made of rubber material, the first and

second cartridge bodies

60 and 61 are respectively inserted into the first and

second firing ports

15 and 16 of the gun so that the first and

second firing ports

15 and 16 of the gun barrel 14 have good sealing performance and do not leak air when not fired.

Further, the front ends of the first bullet body 60 and the second bullet body 61 are provided with a first hook 62, and the first bullet body 60 and the second bullet body 61 are connected by a first elastic wire 63, and further preferably, the length of the first elastic wire 63 is 2.5m, so that, as shown in fig. 4, after the first bullet body 60 and the second bullet body 61 are fired by the firing mechanism, after the first bullet body 60 and the second bullet body 61 which have fired to a certain range reach a target, the target is looped by several turns by the action of the first elastic wire 63, thereby uniforming the target.

As further shown in fig. 5, the firing mechanism comprises a gas collecting and containing device 20 disposed inside the gun body 11 and close to the trigger 13, a high-pressure gas containing device 30 disposed above the gas collecting and containing device 20 and communicated with each other through a pipeline 1, wherein the high-pressure gas containing device 30 is communicated with the gun barrel 14 through a high-pressure gas pipe 2, an ejector 40 disposed inside the gun body 11 and above the gun handle 12 and the trigger 13, and a shell pulling device 50 disposed inside the gun body 11 and above the ejector 40, wherein the gas collecting and containing device 20 is used for collecting outside gas and conveying the outside gas into the high-pressure gas containing device 30 through the pipeline 1; the high-pressure gas containing device 30 is used for extruding the gas delivered by the gas collecting and containing device 20 to form high-pressure gas; the ejection device 40 is used for hammering the high-pressure gas containing device 30 and conveying the high-pressure gas in the high-pressure gas containing device 30 into the gun barrel 14 through the high-pressure gas pipe 2 so as to achieve the shooting effect; the housing pulling device 50 is used for pulling the ejection device 40 and enabling the ejection device 40 to be clamped in the trigger 13, so that the trigger 13 is conveniently pulled to enable the ejection device 40 to hammer the high-pressure gas containing device 30 and to convey the high-pressure gas in the high-pressure gas containing device 30 to the barrel 14 through the high-pressure gas pipe 2 to achieve the shooting effect.

The structure and mechanism of action of the main components of the present invention are further described below.

As shown in fig. 5-6, the gas collection container 20 includes a gas collection container 21, the gas collection container 21 is disposed at the bottom inside the gun body 11 and is located in front of the trigger 13, and further as shown in the figure, one end of the gas collection container 21 away from the trigger 13 is connected to the high-pressure gas container 30 through a pipe 1.

As further shown in the figure, one end of the bottom of the gas collection accommodating cavity 21 close to the trigger 13 is provided with a transverse notch; a first piston 22, a gas collecting handle 23 and a first spring 24 are arranged in the gas collecting accommodating cavity 21, wherein the first piston 22 is arranged at one end close to the gas inlet of the pipeline 1; the gas collecting handle 23 is C-shaped, and one end of the gas collecting handle 23 passes through a transverse gap at the bottom of the gas collecting accommodating cavity 21 and extends to the outside of the gun body 11; the first spring 24 is fixedly connected with the first piston 22 through a gas collecting handle 23, specifically as shown in fig. 6, the front end of the gas collecting handle 23 is fixedly connected with the first piston 22, the rear end of the gas collecting handle 23 is fixedly connected with the first spring 24, and one end of the first spring 24, which is far away from the gas collecting handle 23, is fixedly connected with the cavity wall at one end of the gas collecting accommodating cavity 20, so that the gas collecting handle 23 is held to move back and forth in the transverse gap at the bottom of the gas collecting accommodating cavity 21, and the first piston 22 in the gas collecting accommodating cavity 20 is driven to move back and forth, so that the gas entering through the transverse gap at the bottom of the collecting accommodating cavity 21 is extruded and conveyed into the high-pressure gas accommodating device 30 through the pipe 5.

As shown in fig. 5 to 6, the high pressure gas containing device 30 includes a high pressure gas containing chamber 31 provided in the gun body 11, and the high-pressure gas containing cavity 31 is arranged on the gas collecting containing cavity 21 and is communicated with the gas collecting containing cavity 21 through a pipeline 1, further as shown in the figure, a second piston 32, a second spring 33, a third piston 34 and a piston rod 35 are arranged in the high-pressure gas accommodating chamber 31, wherein the second piston 32 is arranged at one end close to the air outlet of the pipeline 1, the third piston 34 is arranged at one end far away from the air outlet of the pipeline 1, the second piston 32 and the third piston 34 are fixedly connected by the second spring 33, the piston rod 35 is fixedly arranged on a third piston 34 remote from the second spring 33, and the piston rod 35 penetrates through the high-pressure gas accommodating cavity 31 and extends towards the ejection device 40.

Further as shown in the figure, the diameter of the high-pressure gas containing cavity 31 near the end parts of the two ends of the high-pressure gas containing cavity 31 is larger than the diameter of the two ends of the high-pressure gas containing cavity 31 and the diameter of the middle part of the high-pressure gas containing cavity 31.

Further, the high pressure gas containing device 30 is communicated with the barrel 14 through the high pressure gas pipe 8, specifically, the side wall of the high pressure gas containing cavity 31 between the second piston 32 and the third piston 34 is provided with a high pressure gas outlet, and the high pressure gas outlet is communicated with the barrel 14 through the high pressure gas pipe 2, more specifically, the high pressure gas outlet is arranged in the middle of the high pressure gas containing cavity 31.

Therefore, when the gas collecting and accommodating cavity 20 is conveyed through the pipeline 1, the gas firstly presses the second piston 32 to move towards the third piston 34, when the gas presses the second piston 32 to pass through the high-pressure gas accommodating cavity 31 which is larger than the diameters of the two ends of the high-pressure gas accommodating cavity 31 and the middle part of the high-pressure gas accommodating cavity 31, the gas enters between the second piston 32 and the third piston 34 through the gap between the second piston 32 and the high-pressure gas accommodating cavity 31, the gas is conveyed in a reciprocating manner, the high-pressure gas is formed after the gas in the high-pressure gas accommodating cavity 31 between the second piston 32 and the third piston 34 is fully pressed, and meanwhile, the piston rod 35 on the third piston 34 extends towards the ejection device 40 through the pressing of the gas.

As shown in fig. 7-9, the ejection device 40 includes an ejection tube 41 disposed inside the gun body 11 and above the gun grip 12 and the trigger 13, the ejection tube 41 is located on the same plane as the piston rod 35, and the ejection tube 41 corresponds to the piston rod 35.

Further, a third spring 42 and a metal cylinder 43 are arranged in the ejection pipe 41, one end of the third spring 42 is fixedly connected with one end of the ejection pipe 41, and the other end of the third spring is fixedly connected with the metal cylinder 43, wherein the metal cylinder 43 corresponds to the piston rod 35, and the metal cylinder 43 can hammer the piston rod 35 by the elastic force of the third spring 42.

Further, as shown in the figure, a T-shaped notch is formed in the top of the metal cylinder 43, and a groove is formed in the bottom of the metal cylinder 43; the bottom of launching the pipeline 41 is provided with the confession trigger 13 buckle blocks the through-hole of metal cylinder 43 upper groove, specifically, the through-hole has been seted up to trigger 13 top, launching the pipeline 41 bottom, the buckle of trigger 13 can block through the through-hole the recess of metal cylinder 43 bottom to can control metal cylinder 43 hammering through pulling trigger 13 piston rod 35.

Furthermore, the notch of the T-shaped notch faces the piston rod 35, and the depth of the T-shaped notch gradually becomes deeper toward the piston rod 35.

As shown in fig. 8-9, the housing pulling device 50 includes a housing 51 capable of sliding on the gun body 11, wherein a groove 52 is formed on the gun body 11 below the housing 51, a transverse notch extending through the gun body 11 and extending to the ejection duct 41 is formed at the bottom of the groove 52, and further, a cylindrical pulling rod 53 capable of sliding in the transverse notch is disposed in the groove 52, wherein the top of the cylindrical pulling rod 53 is fixedly connected to the housing 51, and the bottom end of the cylindrical pulling rod 53 is capable of engaging with the T-shaped groove on the metal cylinder 43, so that the cylindrical pulling rod 53 can pull the metal cylinder 43 to be engaged in the trigger 13 by sliding the housing 51.

Further, one end of the groove 52 is provided with a fourth spring 54 for restoring the housing 51, and after the housing 51 is slid so that the cylinder pulling rod 53 pulls the metal cylinder 43 to be stuck on the trigger 13, the housing 51 is restored to the original position by the elastic force of the fourth spring 54 in the groove 52.

As further shown in fig. 10-12, an adjusting device for controlling the range of the high pressure gun is disposed above the barrel 14, and the adjusting device comprises a threaded through hole 17 penetrating the barrel 11 from the top of the barrel 11 and extending the barrel 14, and a screw 18 disposed in the threaded through hole 17, wherein as shown in the figure, a graduated scale is disposed outside the screw 18, and a hole for discharging high pressure gas is disposed at the threaded portion. Specifically, as shown in the figure, a T-shaped through hole is formed inside the screw 18, and the range of the high-pressure gun can be controlled by rotating the screw 18. Thus, by tightening the screw 18 into the threaded through hole 17, there is no gas egress from the barrel 14, thereby enabling long distance shooting; by turning the screw 18 to a position in the middle of the threaded through hole 17, a part of the gas in the barrel 14 is discharged, and thus close firing is enabled.

The front end of the gun body 11 is provided with an aiming laser, and the rear end of the gun body 11 and the housing 51 are provided with a rear aiming laser.

Example 2

As shown in fig. 13, a high pressure gun for police comprises a gun body 10, a firing mechanism disposed inside the gun body 10, and a firing device disposed on the gun body 10 and fired by the firing mechanism, specifically, as shown in the figure, the gun body 10 comprises a gun body 11, a gun handle 12, a trigger 13, and a gun barrel 14, the gun handle 12 is disposed at the rear of the gun body 11, the gun barrel 14 is disposed at the front of the gun body 11, and the trigger 13 is disposed at the middle of the gun body 11 and near the gun handle 12.

As further shown in fig. 14, the barrel 14 is a "Y" shaped barrel 14 formed by a first port 15 and a second port 16, and the angle between the first port 15 and the second port 16 is 20 °.

As further shown in fig. 13-18, the firing device comprises a housing assembly 31 fixed on the gun body 11 by a snap or a screw, and a power supply device fixed under the housing assembly 71, wherein the housing assembly 71 comprises a through pipe 72 communicated with the gun barrel 14, the through pipe 72 is an "H" shaped through pipe 72 formed by a first through pipe 73 and a second through pipe 74, the first through pipe 73 and the second through pipe 74 are respectively provided with a first metal thread 75 and a second metal thread 76, the first metal thread 75 and the second metal thread 76 are made of rubber material on the outside and metal on the inside, thereby the through pipe 72 can be sealed by the first metal thread 75 and the second metal thread 76, and air leakage can not occur when the gun is not fired.

Further, the power supply means includes a power supply 77 and a power button 78 for controlling the power supply 77, and the output terminal of the power supply 77 is connected to the first metal thread 75 and the second metal thread 76 through two wires 79, respectively.

Furthermore, the launching device further comprises a third bullet body 3 and a fourth bullet body 4 which are in threaded connection with the first metal thread 75 and the second metal thread 76, wherein the front ends of the third bullet body 3 and the fourth bullet body 4 are both provided with a second hook 5, the third bullet body 3 and the fourth bullet body 4 are connected through a second elastic steel wire 6,

further, the output end of the power supply 77 is connected to the first metal thread 75 and the second metal thread 76 through a lead 79, the lead 79 has a positive electrode and a negative electrode, and specifically, the lead 79 is two leads 79.

Further, there are two wire accommodating cavities, so that the two wires 79 are respectively disposed in different accommodating cavities; preferably, the wire 79 is retracted within the wire receiving cavity by a retraction spring.

Further preferably, the length of the second elastic wire 6 is 2.5m, so that after the third bullet body 3 and the fourth bullet body 4 are shot by the shooting mechanism, the third bullet body 3 and the fourth bullet body 4 which are shot to a certain range reach a target, the target is lassoed for several circles by the action of the second elastic wire 6, and then the power button 38 is pressed, and the power source 37 in the power source device is transported through the lead 39 to shock the target, thereby subduing the target.

As further shown in fig. 16, the firing mechanism comprises a gas collecting and containing device 20 disposed inside the gun body 11 and close to the trigger 13, a high-pressure gas containing device 30 disposed above the gas collecting and containing device 20 and communicated with each other through a pipeline 1, wherein the high-pressure gas containing device 30 is communicated with the gun barrel 14 through a high-pressure gas pipe 2, an ejector 40 disposed inside the gun body 11 and above the gun handle 12 and the trigger 13, and a shell pulling device 50 disposed inside the gun body 11 and above the ejector 40, wherein the gas collecting and containing device 20 is used for collecting outside gas and conveying the outside gas into the high-pressure gas containing device 30 through the pipeline 1; the high-pressure gas containing device 30 is used for extruding the gas delivered by the gas collecting and containing device 20 to form high-pressure gas; the ejection device 40 is used for hammering the high-pressure gas containing device 30 and conveying the high-pressure gas in the high-pressure gas containing device 30 into the gun barrel 14 through the high-pressure gas pipe 2 so as to achieve the shooting effect; the housing pulling device 50 is used for pulling the ejection device 40 and enabling the ejection device 40 to be clamped in the trigger 13, so that the trigger 13 is conveniently pulled to enable the ejection device 40 to hammer the high-pressure gas containing device 30 and to convey the high-pressure gas in the high-pressure gas containing device 30 to the barrel 14 through the high-pressure gas pipe 2 to achieve the shooting effect.

As further shown in the figure, one end of the bottom of the gas collection accommodating cavity 21 close to the trigger 13 is provided with a transverse notch; a first piston 22, a gas collecting handle 23 and a first spring 24 are arranged in the gas collecting accommodating cavity 21, wherein the first piston 22 is arranged at one end close to the gas inlet of the pipeline 1; the gas collecting handle 23 is C-shaped, and one end of the gas collecting handle 23 passes through a transverse gap at the bottom of the gas collecting accommodating cavity 21 and extends to the outside of the gun body 11; the first spring 24 is fixedly connected with the first piston 22 through a gas collecting handle 23, specifically as shown in fig. 6, the front end of the gas collecting handle 23 is fixedly connected with the first piston 22, the rear end of the gas collecting handle 23 is fixedly connected with the first spring 24, and one end of the first spring 24, which is far away from the gas collecting handle 23, is fixedly connected with the cavity wall of one end of the gas collecting accommodating cavity 20, so that the gas collecting handle 23 is held to move back and forth in the transverse gap at the bottom of the gas collecting accommodating cavity 21, and further the first piston 22 in the gas collecting accommodating cavity 20 is driven to move back and forth to extrude the gas entering through the transverse gap at the bottom of the collecting accommodating cavity 21 and convey the gas into the high-pressure gas accommodating device 30 through the pipe 5.

As shown in fig. 5 to 6, the high pressure gas containing device 30 includes a high pressure gas containing chamber 31 provided in the gun body 11, and the high-pressure gas receiving cavity 31 is arranged on the gas collection receiving cavity 21 and communicated with the gas collection receiving cavity 21 through a pipeline 1, further as shown in the figure, a second piston 32, a second spring 33, a third piston 34 and a piston rod 35 are arranged in the high-pressure gas accommodating chamber 31, wherein the second piston 32 is arranged at one end close to the air outlet of the pipeline 1, the third piston 34 is arranged at one end far away from the air outlet of the pipeline 1, the second piston 32 is fixedly connected with the third piston 34 through the second spring 33, the piston rod 35 is fixedly arranged on a third piston 34 remote from the second spring 33, and the piston rod 35 penetrates through the high-pressure gas accommodating cavity 31 and extends towards the ejection device 40.

Further, as shown in the figure, the diameters of the high-pressure gas accommodating cavity 31 near the ends of the two ends of the high-pressure gas accommodating cavity 31 are larger than the diameters of the two ends of the high-pressure gas accommodating cavity 31 and the middle of the high-pressure gas accommodating cavity 31.

Further, the high pressure gas containing device 30 is communicated with the barrel 14 through the high pressure gas pipe 8, and specifically, a high pressure gas outlet is provided on the side wall of the high pressure gas containing chamber 31 between the second piston 32 and the third piston 34, and the high pressure gas outlet is communicated with the barrel 14 through the high pressure gas pipe 2, and more specifically, the high pressure gas outlet is provided in the middle of the high pressure gas containing chamber 31.

As shown in fig. 7 to 9, the ejection device 40 includes an ejection tube 41 disposed inside the gun body 11 and above the gun handle 12 and the trigger 13, the ejection tube 41 and the piston rod 35 are located on the same plane, and the ejection tube 41 and the piston rod 35 correspond.

Further, one end of the groove 52 is provided with a fourth spring 54 for restoring the housing 51, and when the housing 51 is slid so that the cylinder pulling rod 53 pulls the metal cylinder 43 to be caught by the trigger 13, the housing 51 is restored to the original position by the elastic force of the fourth spring 54 in the groove 52.

As further shown in fig. 10-12, an adjusting device for controlling the range of the high pressure gun is disposed above the barrel 14, and the adjusting device comprises a threaded through hole 17 penetrating the barrel 11 from the top of the barrel 11 and extending the barrel 14, and a screw 18 disposed in the threaded through hole 17, wherein as shown in the figure, a graduated scale is disposed outside the screw 18, and a hole for discharging high pressure gas is disposed at the threaded portion. Specifically, as shown in the figure, T type through-hole has been seted up to screw 18 inside, can control the range of high-pressure gun through rotating screw 18. Thus, by tightening the screw 18 into the threaded through hole 17, no gas is let out of the barrel 14, thereby enabling long distance shooting; by turning the screw 18 to a position in the middle of the threaded through hole 17, a part of the gas in the barrel 14 is discharged, and thus close firing is enabled.

In an exemplary embodiment of the invention, the police gun may further comprise one or more sets of spare firing means, taking into account that the police gun may be used multiple times while performing a mission, with the firing means of the gun being disposable.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the technical solutions of the present invention have been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that the technical solutions described in the foregoing embodiments may be modified or some technical features may be equally replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a police uses high-pressure gun which characterized in that: comprises a gun body (10), a launching mechanism arranged in the gun body (10) and a launching device which is arranged on the gun body (10) and is launched by the launching mechanism, wherein;

the gun body (10) comprises a gun body (11), a gun handle (12) arranged at the tail part of the gun body (11), a trigger (13) arranged in the middle of the gun body (11) and close to the gun handle (12), and a gun barrel (14) arranged at the front end of the gun body (11), wherein the gun barrel (14) is a Y-shaped gun barrel (14) formed by a first emission port (15) and a second emission port (16);

the launching mechanism comprises a gas collecting and accommodating device (20) which is arranged inside the gun body (11) and used for collecting gas, a high-pressure gas accommodating device (30) which is arranged inside the gun body (11) and positioned above the gas collecting and accommodating device (20) and used for forming high-pressure gas from the gas inside the gas collecting and accommodating device (20), an ejection device (40) which is arranged inside the gun body (11) and positioned above the gun handle (12) and the trigger (13) and used for hammering the high-pressure gas accommodating device (30), and a shell pulling device (50) which is arranged inside the gun body (11) and positioned above the ejection device (40) and used for pulling the ejection device (40) and enabling the ejection device (40) to be clamped in a clamping buckle of the trigger (13);

the gas collecting and accommodating device (20) is communicated with the high-pressure gas accommodating device (30) through a pipeline (1), and the high-pressure gas accommodating device (30) is communicated with the gun barrel (14) through a high-pressure gas pipe (2);

the gas collecting and accommodating device (20) comprises a gas collecting and accommodating cavity (21), a first piston (22), a gas collecting handle (23) and a first spring (24) are arranged in the gas collecting and accommodating cavity (21), and a transverse notch is formed in one end, close to the trigger (13), of the bottom of the gas collecting and accommodating cavity (21); the first piston (22) is arranged at one end close to the air inlet of the pipeline (1); the gas collection handle (23) is C-shaped, one end of the gas collection handle (23) penetrates through a transverse gap at the bottom of the gas collection accommodating cavity (21) and extends to the outside of the gun body (11), the front end of the gas collection handle (23) is fixedly connected with the first piston (22), the rear end of the gas collection handle (23) is fixedly connected with the first spring (24), and one end, far away from the gas collection handle (23), of the first spring (24) is fixedly connected with the cavity wall at one end of the gas collection accommodating cavity (21);

the high-pressure gas accommodating device (30) comprises a high-pressure gas accommodating cavity (31), a second piston (32), a second spring (33), a third piston (34) and a piston rod (35) are arranged in the high-pressure gas accommodating cavity (31), the second piston (32) is arranged at one end close to the gas outlet of the pipeline (1), the third piston (34) is arranged at one end far away from the gas outlet of the pipeline (1), the second piston (32) and the third piston (34) are fixedly connected through the second spring (33), the piston rod (35) is fixedly arranged on the third piston (34) far away from the second spring (33), and the piston rod (35) penetrates through the high-pressure gas accommodating cavity (31) and extends towards the device (40);

high-pressure gas holds chamber (31) and is close to the diameter that high-pressure gas held chamber (31) both ends tip is greater than high-pressure gas holds chamber (31) both ends and high-pressure gas and holds the diameter in chamber (31) middle part.

2. A police high pressure gun as claimed in claim 1, wherein: the ejection device (40) comprises an ejection pipeline (41), and a third spring (42), a metal cylinder (43) and a through hole for clamping the metal cylinder (43) by the trigger (13) are arranged in the ejection pipeline (41); one end of the third spring (42) is fixed on the ejection pipe (41), the other end of the third spring is fixedly connected with the metal cylinder (43), and the metal cylinder (43) can hammer the piston rod (35) through the elastic force of the third spring (42).

3. A police high pressure gun as claimed in claim 2, wherein: shell pulling device (50) including can gliding shell (51) on body of a gun (11), wherein, shell (51) below, body of a gun (11) have been seted up recess (52), recess (52) bottom has been seted up and has been run through body of a gun (11) and extend to launch the horizontal breach of pipeline (41), just be provided with in recess (52) and can slide in horizontal breach cylinder pulling rod (53), the top of cylinder pulling rod (53) with shell (51) fixed connection, the bottom of cylinder pulling rod (53) can with metal cylinder (43) looks block, makes through sliding shell (51) cylinder pulling rod (53) can stimulate metal cylinder (43) card is in trigger (13) buckle.

4. A police high pressure gun as claimed in claim 3, wherein: the launching device comprises a first bullet body (60) and a second bullet body (61) which are arranged in the first launching port (15) and the second launching port (16), the outer layer of the tail of the first bullet body (60) and the outer layer of the tail of the second bullet body (61) are made of rubber materials, the inner layers of the rubber materials are made of metal, the first bullet body (60) and the front end of the second bullet body (61) are provided with first hooks (62), and the first bullet body (60) and the second bullet body (61) are connected through first elastic steel wires (63).

5. A police high pressure gun as claimed in claim 4, characterised in that: the firing device comprises a shell assembly (71) fixed on the gun body (11) through a buckle or a screw, and a power supply device fixed below the shell assembly (71), wherein the shell assembly (71) comprises a through pipe (72) communicated with the gun barrel (14), the through pipe (72) is an H-shaped through pipe (72) formed by a first through pipe (73) and a second through pipe (74), and a first metal thread (75) and a second metal thread (76) are respectively arranged in the first through pipe (73) and the second through pipe (74); the power supply device comprises a power supply (77) and a power supply button (78) for controlling the power supply (77), and the output end of the power supply (77) is respectively connected with the first metal thread (75) and the second metal thread (76) through two wires (79).

6. A police high pressure gun as claimed in claim 5, characterised in that: the launching device further comprises a third bullet body (3) and a fourth bullet body (4) which are in threaded connection with the first metal thread (75) and the second metal thread (76), wherein the third bullet body (3) and the fourth bullet body (4) are provided with second hooks (5), and the third bullet body (3) and the fourth bullet body (4) are connected through second elastic steel wires (6).

7. A police pressure gun as claimed in claim 4 or 6, characterised in that: the adjusting device for controlling the range of the high-pressure gun is arranged above the gun barrel (14) and comprises a threaded through hole (17) penetrating through the gun body (11) from the top of the gun body (11) and extending to the gun barrel (14) and a screw (18) arranged in the threaded through hole (17), wherein a graduated 8-gauge is arranged outside the screw (18), and a through hole for discharging high-pressure gas is formed in the threaded position.