CN215064110U - Flying needle self-paying-off type electric shock bullet structure - Google Patents
Flying needle self-paying-off type electric shock bullet structure Download PDFInfo
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- CN215064110U CN215064110U CN202121339091.3U CN202121339091U CN215064110U CN 215064110 U CN215064110 U CN 215064110U CN 202121339091 U CN202121339091 U CN 202121339091U CN 215064110 U CN215064110 U CN 215064110U
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Abstract
The utility model discloses a fly needle from electric shock bullet structure of unwrapping wire formula, include: electric shock shell, excitation device and fly the needle structure, be provided with the air flue in the electric shock shell, air flue intercommunication excitation device and fly the needle structure, fly the needle structure and include: the flying probe comprises a flying probe shell, a flying probe head and a conducting wire, wherein the flying probe shell is provided with a wire releasing hole corresponding to the conducting wire, one end of the conducting wire is connected with the flying probe head, and the other end of the conducting wire penetrates through the wire releasing hole and is connected with the shell of the electric shock bomb. The utility model discloses a convolute the wire inside flying needle casing to be connected the one end and the electric shock shell of wire, consequently flying the in-process that the needle structure flew out, the wire lasts and emits through the unwrapping wire hole, organizes the line through the unwrapping wire pore pair wire, thereby avoids phenomenons such as the wire appears knoing, twines, improves the stability of electric shock shell. And only the wire is wound in the flying needle shell, so that the wire winding of the wire does not need to consider avoiding of other mechanisms in the production process, and the wire winding efficiency is improved.
Description
Technical Field
The utility model relates to an anti-riot anti-terrorism apparatus technical field especially relates to a fly needle from unwrapping wire formula electric shock bullet structure.
Background
In the prior anti-riot electric shock bomb products in China, the electric shock bomb basically comprises a shell and two flying pins arranged in the shell, wherein a lead wire with the length of 5-10 meters is arranged behind each flying pin, and the lead wires are generally coiled in the shell. When the electric shock bomb is excited, the flying needle pulls the conducting wire to fly forwards. Because the wires are generally wound in the shell in a stacked manner, when the wires fly out, the wires are easy to wind and fly out of the shell of the electric shock bomb in a whole group, and the wires are seriously pulled short by flying needles after knotting, so that the electric shock effect on a target is influenced. And because prior art's wire all coils in the shell of electric shock shell, relatively occupy the inside space of electric shock shell, be not convenient for the placing of other structures, moreover in order to avoid other structures, wire-wound efficiency is lower.
Accordingly, the prior art is deficient and needs improvement.
SUMMERY OF THE UTILITY MODEL
The utility model aims at overcoming the defects of the prior art and providing a flying needle self-paying off type electric shock bullet structure.
The technical scheme of the utility model as follows: the utility model provides a flying probe is from electric shock bullet structure of unwrapping wire formula, includes: electric shock shell, set up in the excitation device of electric shock shell one end and set up in two of the electric shock shell other end fly the needle structure, be provided with the air flue in the electric shock shell, air flue intercommunication excitation device and fly the needle structure, it includes to fly the needle structure: the flying needle comprises a flying needle shell, a flying needle head arranged at the front end of the flying needle shell and a wire wound in the flying needle shell, wherein the flying needle shell is provided with a wire releasing hole corresponding to the wire, one end of the wire is connected with the flying needle head, and the other end of the wire penetrates through the wire releasing hole and is connected with an electric shock bomb shell.
Furthermore, the shell of the electric shock bullet is provided with a flying needle end cover corresponding to the flying needle structure, a flying needle plug is arranged between the flying needle end cover and the flying needle structure, and the flying needle plug is sleeved on the flying needle head.
Furthermore, a barb is arranged on the flying needle head.
Further, the excitation device is a pneumatic excitation device, and the excitation device includes: the electric shock bomb comprises an ignition needle arranged at one end of a shell of the electric shock bomb, a primer connected with the ignition needle, a gas cylinder arranged beside the primer and a puncture head arranged in the shell of the electric shock bomb, wherein a sharp end is arranged on the puncture head, the sharp end of the puncture head faces the gas cylinder, and compressed gas is filled in the gas cylinder.
Further, a balance pad is arranged between the primer and the gas cylinder.
Further, the excitation device is an explosive type excitation device, and the excitation device comprises: the ignition device comprises an ignition needle and an initiation device connected with the ignition needle.
Furthermore, the excitation device is an electromagnetic excitation device, the excitation device comprises an electromagnetic ejection device, and the electromagnetic ejection device is in contact with the flying needle structure.
Further, the excitation device is a spring-type excitation device, the excitation device comprises a spring ejection device, and the spring ejection device is in contact with the flying needle structure.
Adopt above-mentioned scheme, the utility model discloses a convolute the wire inside flying needle casing to be connected the one end and the electric shock shell of wire, consequently flying the in-process of needle structure departure, the wire lasts to emit through the unwrapping wire hole, organizes the line through the unwrapping wire pore pair wire, thereby avoids phenomena such as the wire appears knoing, twining, improves the stability of electric shock shell, so that uniform with the target effectively. And only the wire is wound in the flying needle shell, so that the wire winding of the wire does not need to consider avoiding of other mechanisms in the production process, and the wire winding efficiency is improved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic diagram of the structure of the emission state.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1 and 2, the present invention provides a flying needle self-paying off type electric shock bomb structure, which includes: the electric shock bomb comprises an electric shock bomb shell 1, an excitation device 2 arranged at one end of the electric shock bomb shell 1 and two flying needle structures 3 arranged at the other end of the electric shock bomb shell 1. An air passage 11 is arranged in the electric shock shell 1, and the air passage 11 is communicated with the excitation device 2 and the flying needle structure 3. The flying probe structure 3 includes: the flying probe comprises a flying probe shell 31, a flying probe head 32 arranged at the front end of the flying probe shell 31, and a conducting wire 33 coiled in the flying probe shell 31. The flying needle shell 31 is provided with a wire releasing hole 311 corresponding to the wire 33, one end of the wire 33 is connected with the flying needle head 32, and the other end of the wire 33 passes through the wire releasing hole 311 and is connected with the electric shock bomb shell 1. The utility model is suitable for an in the riot electric shock rifle, through the trigger of pulling the riot electric shock rifle, make two fly needle structures 3 fly out from electric shock shell 1 to form the return circuit with the target contact, release voltage to the target through wire 33 simultaneously, with the uniform target. When an antiriot person pulls the trigger of the antiriot electric shock gun, the excitation device 2 arranged in the electric shock shell 1 is triggered, so that huge thrust is generated, and the flying needle structure 3 flies out of the electric shock shell 1. Because one end of the conducting wire 33 is connected with the shell 1 of the electric shock bomb, in the flying process of the flying needle structure 3, the conducting wire 33 is continuously discharged through the wire releasing hole 311, and the conducting wire 33 is arranged through the wire releasing hole 311, so that the phenomena of knotting, winding and the like of the conducting wire 33 are avoided, the stability of the electric shock bomb is improved, and the target can be effectively uniformed. In addition, only the lead 33 is wound and placed in the fly needle shell 31, so that the winding of the lead 33 does not need to consider avoiding other mechanisms in the production process, and the winding efficiency is improved.
The electric shock shell 1 is provided with a flying needle end cover 34 corresponding to the flying needle structure 3, a flying needle plug 35 is arranged between the flying needle end cover 34 and the flying needle structure 3, and the flying needle plug 35 is sleeved on the flying needle head 32. Through setting up flying needle end cover 34 and flying needle end cap 35, improve the security of electric shock bullet, avoid picking up or filling the in-process that causes the mistake injury to the riot personnel in the riot motor gun to the electric shock bullet. When the flying needle structure 3 flies out, the flying needle end cover 34 and the flying needle plug 35 are pushed out, and the flying needle end cover 34 and the flying needle plug 35 are separated from the front end of the flying needle structure 3, so that the flying needle head 32 can be normally contacted with a target, and the target is shocked.
The flying needle head 32 is provided with a barb 321. Through set up barb 321 on flying needle head 32 to in flying needle head 32 and the target contact back, can pierce the clothes or the skin of target, and avoid flying needle head 32 to drop from the target, with the electric shock effect of assurance to the target, realize the uniform to the target.
The excitation device 2 is a pneumatic excitation device. The excitation device 2 includes: the electric shock bomb comprises a firing pin 21 arranged at one end of the electric shock bomb shell 1, a primer 22 connected with the firing pin 21, a gas cylinder 23 arranged beside the primer 22, and a puncture head 24 arranged in the electric shock bomb shell 1. The piercing head 24 is provided with a tip, the tip of the piercing head 24 faces the gas cylinder 23, and the gas cylinder 23 is filled with compressed gas. When the trigger of the anti-riot electric shock gun is pulled by an anti-riot person, the primer is ignited through the ignition needle 21, so that the primer 22 moves forwards, and the gas cylinder 23 is pushed towards the puncture head 24. After the gas cylinder 23 contacts the puncture head 24, the puncture head 24 punctures the gas cylinder 23, so that the compressed gas in the gas cylinder 23 is released outwards, and the flying-needle structure 3 is pushed through the gas passage 11, so that the flying-needle structure 3 flies out of the electric shock bullet housing 1 to the target.
A balance pad 25 is arranged between the primer 22 and the gas cylinder 23, so that the thrust generated by the primer 22 can be uniformly applied to the gas cylinder 23, and the gas cylinder 23 can be smoothly pushed out to the puncture head 24. Meanwhile, the balance pad 25 can absorb the impact generated by the primer 22, and the influence on the blowing effect of the flying probe structure 3 caused by the fact that the gas cylinder 23 is broken by the primer 22 is avoided.
The excitation device 2 can also adopt an explosive type excitation device. The excitation device 2 includes: the ignition device comprises an ignition needle and an initiation device connected with the ignition needle. When an antiriot person pulls a trigger of the antiriot electric shock gun, the ignition needle excites the ignition device, so that gunpowder in the ignition device explodes, thrust is generated, the flying needle structure 3 is pushed, and the flying needle structure 3 flies out of the electric shock shell body 1 to a target.
The excitation device 2 is an electromagnetic excitation device, the excitation device 2 comprises an electromagnetic ejection device, and the electromagnetic ejection device is in contact with the flying needle structure. When an antiriot person pulls a trigger of the antiriot electric shock gun, the electromagnetic ejection device is triggered, generates electromagnetic energy and acts on the flying needle structure 3, so that thrust is generated on the flying needle structure 3, and the flying needle structure 3 flies out of the electric shock bullet shell 1 to a target.
The excitation device 2 is a spring type excitation device, the excitation device 2 comprises a spring ejection device, and the spring ejection device is in contact with the flying needle structure 3. When an antiriot person pulls the trigger of the antiriot electric shock gun, the spring device is triggered, and the elastic force generated by the electromagnetic ejection device is applied to the flying needle structure 3, so that the flying needle structure 3 generates thrust, and the flying needle structure 3 flies out to a target from the electric shock bullet shell 1.
To sum up, the utility model discloses a convolute the wire inside flying needle casing to be connected the one end and the electric shock shell of wire, consequently flying the in-process of needle structure departure, the wire lasts to emit through the unwrapping wire hole, organizes the line through the unwrapping wire pore pair wire, thereby avoids phenomena such as the wire appears knoing, twines, improves the stability of electric shock shell, so that uniform with the target effectively. And only the wire is wound in the flying needle shell, so that the wire winding of the wire does not need to consider avoiding of other mechanisms in the production process, and the wire winding efficiency is improved.
The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (8)
1. The utility model provides a fly needle from electric shock bullet structure of unwrapping wire formula which characterized in that includes: electric shock shell, set up in the excitation device of electric shock shell one end and set up in two of the electric shock shell other end fly the needle structure, be provided with the air flue in the electric shock shell, air flue intercommunication excitation device and fly the needle structure, it includes to fly the needle structure: the flying needle comprises a flying needle shell, a flying needle head arranged at the front end of the flying needle shell and a wire wound in the flying needle shell, wherein the flying needle shell is provided with a wire releasing hole corresponding to the wire, one end of the wire is connected with the flying needle head, and the other end of the wire penetrates through the wire releasing hole and is connected with an electric shock bomb shell.
2. The flying needle self-paying off type electric shock bullet structure as claimed in claim 1, wherein the electric shock bullet shell is provided with a flying needle end cover corresponding to the flying needle structure, a flying needle plug is arranged between the flying needle end cover and the flying needle structure, and the flying needle plug is sleeved on the flying needle head.
3. The flying needle self-paying off type electric shock bullet structure as claimed in claim 1, wherein a barb is arranged on the flying needle head.
4. The flying needle self-paying off type electric shock bomb structure according to claim 1, wherein the excitation device is a pneumatic excitation device, and the excitation device comprises: the electric shock bomb comprises an ignition needle arranged at one end of a shell of the electric shock bomb, a primer connected with the ignition needle, a gas cylinder arranged beside the primer and a puncture head arranged in the shell of the electric shock bomb, wherein a sharp end is arranged on the puncture head, the sharp end of the puncture head faces the gas cylinder, and compressed gas is filled in the gas cylinder.
5. The flying needle self-paying off type electric shock bomb structure according to claim 4, wherein a balance pad is arranged between the primer and the gas cylinder.
6. The flying-needle self-paying-off electric stunning bullet structure as claimed in claim 1, wherein the firing means is a gunpowder type firing means, the firing means comprising: the ignition device comprises an ignition needle and an initiation device connected with the ignition needle.
7. The flying needle self-paying off type electric shock bomb structure according to claim 1, wherein the excitation device is an electromagnetic excitation device, the excitation device comprises an electromagnetic ejection device, and the electromagnetic ejection device is in contact with the flying needle structure.
8. The flying needle self-paying off type electric shock projectile structure as claimed in claim 1, wherein said activating means is a spring type activating means, said activating means comprising a spring ejection means, said spring ejection means being in contact with the flying needle structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121339091.3U CN215064110U (en) | 2021-06-16 | 2021-06-16 | Flying needle self-paying-off type electric shock bullet structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121339091.3U CN215064110U (en) | 2021-06-16 | 2021-06-16 | Flying needle self-paying-off type electric shock bullet structure |
Publications (1)
Publication Number | Publication Date |
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CN215064110U true CN215064110U (en) | 2021-12-07 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202121339091.3U Active CN215064110U (en) | 2021-06-16 | 2021-06-16 | Flying needle self-paying-off type electric shock bullet structure |
Country Status (1)
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CN (1) | CN215064110U (en) |
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2021
- 2021-06-16 CN CN202121339091.3U patent/CN215064110U/en active Active
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