JP3749773B2 - Luminous pronunciation arrow - Google Patents

Description

[0001]
[Field of the Invention]
The present invention relates to a luminous arrow, and more specifically, can be used for various events, ceremonies, parades, plays, games, birds and beasts, and emits a desired amount of light and a desired volume according to the purpose. The present invention relates to a luminescent pronunciation arrow that can be used to save birds and beasts and can be used for lifesaving.
[0002]
[Prior art and problems to be solved by the invention]
Conventionally, in the production of various events, ceremonies, parades, plays, games, etc., production using air guns, fireworks, firecrackers, etc. has been performed.
[0003]
When using the above-mentioned cannon, in addition to being able to produce sound but not using light, for example, installing an cannon such as shooting an empty cannon on the spot or shooting an empty cannon remotely It is necessary to fix the place where the sound is generated, that is, the source of the sound at a predetermined place.
[0004]
When the fireworks are adopted, for example, when igniting fireworks on the spot or when launching fireworks by remote control, the place where the fireworks are ignited or where the fireworks are launched, that is, the light source and sound. The source had to be fixed at a predetermined location.
[0005]
Furthermore, when the firecracker is adopted, it is possible to produce a sound, but not a light. In addition, for example, when a firecracker is sounded on the spot or when a firecracker is sounded remotely, It was necessary to fix the place to be used, that is, the sound source to a predetermined place.
[0006]
As described above, if the light source and the sound source are fixed in a predetermined place, there is a problem that the effect of light and sound becomes monotonous, and the light source and the sound source are present. There is no need to fix the sound source at a predetermined location, and a production that is rich in change and that can freely move the light source and the sound source has been desired.
[0007]
On the other hand, conventional artillery guns, hunting guns, and the like have been adopted for the purpose of threatening and driving away birds and beasts or capturing birds and beasts.
[0008]
When the above-mentioned air gun is adopted, it is possible to perform threats by sound but not by light, and, for example, when shooting an air gun in the spot or shooting an air gun by remote control, The place where the gun is used, that is, the source of the sound needs to be fixed at a predetermined place, so the threatening effect is low, and even if you try to shoot the empty gun, the bird and beast will move and the threatening effect cannot be demonstrated There was a problem.
[0009]
When the hunting gun is adopted, it can threaten by sound but cannot threaten by light, and it is necessary to fix the place where the hunting gun is used, that is, the source of the sound, to a predetermined place, so the threatening effect However, there is a problem that even if you try to shoot the hunting rifle, the birds and beasts will not move to exert the threat effect. In addition, when the bullet of the hunting gun hits the birds and beasts, there is a problem that the birds and beasts cannot be alive.
[0010]
More specifically, for example, when a human child captured by a ferocious beast is rescued, the empty gun and the hunting gun cannot exert a threatening effect due to the movement of the beast. There was a problem that the hunting gun could not be used for life saving because there was a risk that a bullet would hit the child.
[0011]
An object of the present invention is to generate a desired light amount and a desired volume according to the purpose of various events, and it is not necessary to fix the light source and the sound source at predetermined locations. It is to provide a luminescent pronunciation arrow that can be used in any place.
[0012]
It is another object of the present invention to provide a light emitting pronunciation arrow that has a high threatening effect on birds and beasts and can live and trap birds and beasts.
[0013]
Another object of the present invention is to provide a light emitting pronunciation arrow that can be used for lifesaving.
[0014]
[Means for Solving the Problems]
The means for solving the problem is a shaft having an arrow at one end. And the arrow A warhead provided at the tip, The warhead includes an impact plate that receives an impact at the time of landing and a striking tip, and is ignited by striking by a striking needle mounted via a biasing member so as to be operated by the impact at the time of landing and the striking tip. A detonator tube in which a detonator is arranged at a position opposite to the tip of the firing pin, and a heat transfer tube provided in a diametrical direction inside the transfer tube, and communicated with the outside of the transfer tube. A fast-fire wire that transmits the firing of the detonator, and a luminescent agent and a sound-producing agent that are arranged around the heat-transfer tube so that at least one of them is in contact with the fast-fire wire It is a luminescent pronunciation arrow characterized by having.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
(General explanation)
The light emitting pronunciation arrow of this invention is provided with a warhead at the tip of a shaft provided with an arrow at one end.
[0016]
Since the light emitting sound emitting arrow of the present invention is provided with a warhead at the tip of the shaft provided with the arrow feather at one end, a bow gun such as a hand crossbow, a bow such as archery, or a launching device capable of firing an arrow, etc. You can fire this luminous arrow.
[0017]
In the luminescent pronunciation arrow of this invention, the position and balance of the center of gravity in the luminescent pronunciation arrow can be adjusted by appropriately designing the weight, shape, dimensions, etc. of the warhead, the shaft and the arrow feather. Therefore, the flying posture of the emitted light emitting pronunciation arrow can be stabilized.
[0018]
The shape of the warhead is not particularly limited, and examples thereof include a columnar shape such as a rod shape, a cylindrical shape, and a prismatic shape, a rectangular shape such as a cube and a rectangular parallelepiped, a spherical shape, and an elliptical shape.
[0019]
The warhead includes a firing pin, a detonator, a fast firing line, a luminescent agent, and a sounding agent.
[0020]
The size of the warhead is appropriately determined according to the use of the light emitting sound arrow, the size of the light emitting agent and sound generator, the position and balance of the center of gravity of the light emitting sound arrow, and the like.
[0021]
Examples of the warhead material include paper such as cardboard and corrugated paper, wood, known plastics, light alloys, metals, and ceramics.
[0022]
The firing pin is configured to operate by an impact at the time of landing of the warhead, and the detonator is ignited by striking with the firing needle.
[0023]
The detonator is formed by filling a metal tube such as copper, aluminum, iron, brass or the like with an additive and an initiator.
[0024]
The auxiliary agent has a function of increasing the explosion speed of the explosive and increasing the explosive power of the explosive. As the auxiliary agent, for example, trinitrotoluene, tetril, hexogen, pen slit, etc. are adopted. can do.
[0025]
Examples of the initiating agent include thunder trap, that is, mercury (II) thunderate, potassium thunderate, thunder acid, silver thunderate, calcium thunderate, barium thunderate, manganese thunderate, cadmium thunderate, thallium thunderate, thunder Thrombates such as copper acid, diazo compounds such as diazodinitrophenol (DDNP), diazobenzene nitrate, nitrodiazobenzene perchlorate, azides such as lead azide, silver azide, copper azide, mercury azide, Lead trinitroresorcin (tricinate), lead dinitroresorcin, lead picrate, dinitrophenol lead, dinitroresorcinine mercury, silver dinitroresorcin, hexyl lead, lead dinitrobenzoate, lead dinitrosalicylate, lead trinitrometacresol, lead diazodinitrophenol Nitro compound heavy metal salts such as lead, trinitrotrioxybenzene lead, guanylnitrosoaminogua Rutetorasen (tetracene), can be adopted acetylene silver, shea Noor birds azide, hexamethylene tri peroxide diamine.
[0026]
The explosive may be used alone, or a plurality of the explosives may be mixed and used, and a binder, a combustible material, an oxidizing agent, a friction agent, and the like may be added.
[0027]
Examples of the binder, combustible material, oxidizer, and friction agent include dust, paper, charcoal, metal powder, peroxide, chromate, chlorate, perchlorate, nitrate, lead rhodanide, Examples thereof include nitrocellulose, dichromate and phosphorus.
[0028]
Examples of the detonator include a gun detonator and an electric detonator.
[0029]
The gun detonator is formed, for example, in such a manner that the attached medicine and the explosive in the gun detonator are ignited when the firing pin strikes the gun detonator by an impact at the time of landing of the warhead. Therefore, it is preferable that the attachment chemical and the explosive in the gun detonator have high impact sensitivity.
[0030]
As a detonator for the above-mentioned detonator for a gun, it has a lightning rod, an antimony trisulfide and a potassium chlorate containing lead, a rhodium bromide, an antimony trisulfide, a potassium chlorate and trinitrotoluene. It is possible to suitably employ lead rhodanide-based explosives, tricinates, tetracene, antimony trisulfide and tricinate-based explosives comprising barium nitrate.
[0031]
The electric detonator is formed by, for example, an electric ignition device in which an electric bridge is provided at the ends of two leg wires connected to a battery via an energization / insulation switch, and an ignition agent is adhered to cover the electric bridge. The ignition gun is ignited after igniting the igniting agent, the firing pin causes the energization / insulation switch to be energized by an impact when the warhead lands, and the igniting agent is in the electric detonator. Since it is formed to ignite the charge and the explosive, it is preferable that the ignition charge has high ignition sensitivity.
[0032]
Examples of the leg wire include a synthetic resin-coated wire in which a soft copper wire having a wire diameter of 0.5 mm and an electric resistance of 0.1 Ω / m is coated with a vinyl chloride resin.
[0033]
Examples of the electric bridge include a platinum wire having a wire diameter of 0.03 mm and an electric resistance of 300 to 400 Ω / m, an alloy wire of platinum and iridium, and the like.
[0034]
As the igniting agent, it is possible to employ the above-mentioned initiating agent, and in particular, lead rhodanide-based igniting agent comprising lead rhodanide, potassium chlorate and nitrocellulose, DDNP-based igniting agent, tricinate / tetracene-based point. An explosive etc. can be employ | adopted suitably.
[0035]
The igniting agent is kneaded into a paste together with a binder such as raw rubber and nitrocellulose, and a solvent such as benzol and ethyl acetate, and can be adhered to the electric bridge as an ignition ball.
[0036]
As the detonator for the electric detonator, the same detonator for the gun detonator can be adopted.
[0037]
The electric detonator can adjust the length of time required from the start of energization of the electric ignition device by the firing pin to the ignition of the explosive to a desired length.
[0038]
As the electric detonator, an instantaneous electric detonator in which the time required from the start of energization of the electric ignition device to the ignition of the explosive is usually 2-3 seconds, a delay device is provided between the electric ignition device and the explosive. A delayed electric detonator can be mentioned.
[0039]
The delay device includes a delay agent interposed between the ignition agent and the initiator in the electric ignition device, a delay guide wire provided between the ignition agent and the initiator, and a delay indicator. A fire tube etc. can be mentioned.
[0040]
Examples of the delay agent include a gas-free delay agent in which an oxidizing agent and a reducing agent are combined. As the oxidizing agent, BaO ₂ , Pb _Three O _Four , KMnO _Four , PbCrO _Four Examples of the reducing agent include metal powder, alloy powder, non-metal powder, and the like.
[0041]
Examples of the delayed flame conductor include those in which the delay agent and a binder are mixed and covered with a nonflammable yarn such as glass yarn.
[0042]
Examples of the delay flame guide tube include those in which the delay agent is filled in a metal tube such as brass, aluminum, or lead.
[0043]
The delay device has a function of extending the time until the explosive is ignited after the ignition in the electric ignition device is ignited.
[0044]
After the ignition agent in the electric ignition device is ignited, the ignition agent is ignited step by step by combining a plurality of the delayed electric detonators provided with the delay device having different time until the initiation of the ignition. be able to.
[0045]
In addition, the detonator for the delayed gun can be obtained by providing the delay device for the gun detonator, and a plurality of the detonators for the delayed gun provided with the delay device having different times until the explosives ignite. By combining, it is possible to ignite the explosives step by step.
[0046]
In the luminescent sound emitting arrow of the present invention, the plurality of the delayed electric detonators or the plurality of the delayed gun detonators are detonated stepwise, so that the plurality of light emitting agents and the plurality of sounding agents are separated at desired time intervals. Can emit light and sound, for example, can produce light and sound with various intervals of light and sound depending on the purpose of various events, and also exhibits high bird-and-life threatening effect be able to.
[0047]
For example, a warhead having the detonator for a gun that has a reduced filling amount of the luminescent agent and the sounding agent and is not provided with the delay device, and the delay that has increased the filling amount of the luminescent agent and the sounding agent. By detonating a light-emitting sound arrow comprising a warhead having a gun detonator, first the surrounding human beings are alerted by weak light emission and weak sound caused by the detonation of the gun detonator without the delay device. At the same time, when the attention of the surrounding people is drawn, strong light emission and strong pronunciation by the detonator for the delayed gun can be emitted.
[0048]
The detonator is ignited by striking with the firing pin, and the fast-fire wire transmits the detonator firing to the luminescent agent and the sounding agent, the luminescent agent emits light, and the sounding agent produces sound.
[0049]
The fast firing line is not particularly limited as long as the firing of the detonator can be instantaneously transmitted to the light emitting agent and the sounding agent. For example, a fast conducting wire can be adopted.
[0050]
The light-emitting agent and the sound-producing agent are not particularly limited as long as they are substances that emit and emit sound by combustion, and can be appropriately selected from known light-emitting agents and sound-producing agents according to the purpose.
[0051]
The light-emitting agent and the sound-producing agent can be obtained by blending a chemical agent selected according to the purpose from among an oxidizer, a combustible agent, a combustion aid, a color former, a brightener, a sound agent, a flame colorant, and the like. it can.
[0052]
Examples of the oxidizing agent include potassium perchlorate, potassium chlorate, ammonium perchlorate, potassium nitrate, barium nitrate, sodium nitrate and the like.
[0053]
Examples of the combustible agent and the auxiliary combustor include coal, charcoal, sulfur, wood powder, pine pitch, aluminum powder, magnesium powder, titanium powder, resin powder, wheat flour, starch, arsenic trisulfide, antimony trisulfide, and BL agent. , Dextrin, cellac, and yang, which is a distillation residue of turpentine oil.
[0054]
Examples of the color former include sodium oxalate, barium nitrate, strontium carbonate, copper sulfate, and potassium perchlorate.
[0055]
Examples of the brightening agent include iron powder, magnesium powder, and aluminum powder.
[0056]
Examples of the sound medicine include potassium perchlorate, potassium chlorate, a combination drug of potassium picrate and potassium nitrate, a combination drug of gallic acid and potassium chlorate, potassium perchlorate, aluminum and antimony trisulfide. Examples of the combination drug include a combination drug of potassium perchlorate and titanium.
[0057]
Examples of the flame colorant include strontium compounds such as strontium nitrate, strontium oxalate, and strontium carbonate, calcium compounds such as calcium carbonate and calcium sulfate, sodium compounds such as sodium oxalate and ultramarine, barium nitrate, barium carbonate, and barium oxalate. Examples thereof include copper compounds such as barium compounds, flower patina, copper powder, copper sulfate, and basic copper carbonate.
[0058]
In the flame colorant, it is possible to adjust the type of color and the shade of the color. For example, when developing red, the strontium compound and the calcium compound, when developing yellow, the sodium compound, green The barium compound can be used for developing the color, and the copper compound can be used for developing the blue color.
[0059]
Furthermore, by adding chlorides such as polyvinyl chloride and BHC to the flame colorant, the color can be clarified, so that an effect rich in color change can be performed according to the purpose of various events, In addition, it is possible to exert a high bird-and-life threatening effect.
[0060]
In the present invention, not only the light-emitting agent and the sound-producing agent but also a smoke-generating agent can be employed.
[0061]
The smoke generating agent can be obtained, for example, by blending the oxidizing agent, the combustible agent and a pigment that emits smoke, and, if necessary, a flame retardant capable of adjusting the combustion of smoke of the pigment.
[0062]
Examples of the pigment include potassium chlorate, rhodamine, oil yellow, indigo, para red, auramine, phthalocyanine blue, oil red, anthracene, arsenic trisulfide, potassium perchlorate, hemp charcoal, and flour.
[0063]
Examples of the flame retardant include a heat reducing flame retardant capable of preventing the smoke of the pigment from burning, such as sodium hydrogen carbonate and potassium hydrogen carbonate.
[0064]
In the present invention, by employing the light emitting agent, the sound generating agent, and the smoke generating agent, it is possible to produce light, sound, and smoke as the light emitting sound generating smoke emitting arrow.
[0065]
The luminescent sound emitting arrow of this invention has the said firing pin, the said detonator, the said quick-fire line, the said luminescent agent, and the said sound generating agent in the said warhead.
[0066]
It is preferable that the light-emitting agent and the sound-producing agent are filled in a synthetic resin bag, for example, a polyethylene bag.
[0067]
As a form of the warhead, for example, a cylindrical body coupled to a tip portion of a shaft provided with a feather at one end of the light emitting pronunciation arrow of the present invention can be mentioned.
[0068]
For example, when the cylindrical body is provided with a bottom plug on the bottom surface side of the cylindrical body and an upper plug is provided on the upper surface side of the cylindrical body, the bottom plug and the shaft are coupled, and the upper surface is It is preferable to provide a firing pin.
[0069]
A detonator chamber in which the detonator is arranged is provided in the cylindrical body so that the firing pin can hit the detonator, and when the detonator is ignited, the detonator is ignited to the fast-fired line. It is preferable to provide a heat transfer pipe to communicate.
[0070]
In the inside of the cylindrical body, at least one of the luminescent agent and the sounding agent that emits light when the ignition of the detonator is transmitted by the fast flame, and the luminous agent is in contact with the fast flame. It is preferable that the light emitting agent and the sounding agent are arranged so that the sounding agent is in contact with the inner peripheral surface of the cylindrical body.
[0071]
Further, between the luminescent agent and the sounding agent, between the luminescent agent and the fast firing line, and between the sounding agent and the fast firing line, an ignition accelerator or the delay device is interposed, respectively. be able to.
[0072]
In the cylindrical body, it is preferable to provide a through hole on the peripheral surface thereof.
[0073]
By providing a through-hole in the peripheral surface of the cylindrical body, when the light emitting agent and the sounding agent emit light and emit sound, the light emitting agent and the sounding agent can emit light and sound smoothly. For example, when the cylindrical body made of cardboard is employed, by providing a through-hole in the peripheral surface of the cylindrical body made of cardboard, the light emitting agent and the sounding agent emit light and produce sound simultaneously with the cardboard made of cardboard. The cylindrical body can be easily crushed, and the light emitting agent and the sounding agent can emit light and sound smoothly.
[0074]
Furthermore, it is preferable that the outer peripheral surface of the cylindrical body is covered with a moisture-proof material such as a tin foil or a synthetic resin thin film so as to close a through hole provided in the peripheral surface of the cylindrical body.
[0075]
By providing the moisture-proof material on the peripheral surface of the cylindrical body, it is possible to reinforce the cylindrical body and prevent intrusion of moisture and the like. In some cases, it is possible to effectively prevent alteration of the light-emitting agent and the sound-producing agent due to moisture.
[0076]
(Specific explanation)
Hereinafter, an embodiment of a light emitting pronunciation arrow according to the present invention will be described with reference to the drawings.
[0077]
As shown in FIGS. 1 and 2, a light emitting sounding arrow 1 which is a light emitting sounding arrow of the present invention is made of a resin having an arrow blade 2 at one end and provided at a tip 3 a of a hollow shaft 3. Have
[0078]
The warhead 4 includes a stainless steel firing pin 5 that is activated by impact upon landing, a gun detonator 6 that is ignited by striking with the firing needle 5, a fast firing line 7 that transmits the firing of the detonation tube 6, and this fast firing wire. 7 includes a light emitting agent 8 that emits light and a sounding agent 9 that generates sound.
[0079]
The tip 3 a of the shaft 3 includes an aluminum connecting tube 10 that connects the shaft 3 and the warhead 4, and an outer peripheral surface 10 a at one end of the connecting tube 10 and an inner peripheral surface of the shaft 3. 3b is fitted so that it cannot be detached.
[0080]
The warhead 4 includes a paper tube 4a made of cardboard, a resin bottom plug 4b provided on the bottom surface side of the paper tube 4a, and a resin top plug 4c provided on the top surface side of the paper tube 4a. And is formed in a substantially cylindrical shape.
[0081]
The paper tube 4a and the bottom plug 4b, and the paper tube 4a and the upper plug 4c are each bonded with an adhesive.
[0082]
The bottom plug 4b of the warhead 4 is formed in a disc shape, and has a female screw 4d provided at a protruding portion having substantially the same outer periphery as the shaft 3 at the center thereof.
[0083]
The connection tube 10 includes a male screw 10b that can be screwed into the female screw 4d at the other end opposite to the one end coupled to the shaft 3, and the female screw 4d and the male screw 10b are connected to each other. The warhead 4 and the hollow shaft 3 can be coupled by screwing. The upper plug 4c of the warhead 4 is provided with a through mounting hole 4e through which the shooting needle 5 can be mounted.
[0084]
The firing needle 5 is attached to the upper plug 4c through the through-mounting hole 4e in the upper plug 4c.
[0085]
The firing needle 5 has an impact tip 5a that strikes the gun detonator 6, a removal prevention ring 5b that prevents the firing needle 5 from falling out of the through-mounting hole 4e, and an impact that receives an impact at the time of landing. And a plate 5c.
[0086]
The firing pin 5 penetrates the through-mounting hole 4e from the inner side surface 4f side in the warhead 4 of the upper plug 4c, and further penetrates the stainless steel spring 11 on the outer side surface 4g side of the upper plug 4c. The spring biasing member 5d and the impact plate 5c are coupled to each other.
[0087]
Due to the urging force of the spring 11, it is possible to prevent the firing pin 5 from hitting the detonator 6 other than at the time of landing.
[0088]
In the warhead 4, an aluminum detonator chamber 12 in which the gun detonator 6 is disposed at a position opposite to the hitting tip 5 a so that the gun 5 can hit the gun detonator 6 is provided. And an aluminum heat transfer tube 13 is provided to transmit the firing of the gun detonator 6 to the fast-fire wire 7 when the gun detonator 6 is ignited. The detonator chamber 12 is provided in the heat transfer tube 13. It will be.
[0089]
The heat transfer tube 13 is sandwiched between a heat transfer tube upper end fixing portion 4h provided in the upper plug 4c and a heat transfer tube lower end fixing portion 4i provided in the bottom plug 4b.
[0090]
The detonator chamber 12 is formed in a cylindrical body that can be fitted into the heat transfer tube 13, and has a recess 12a on the outer peripheral surface thereof.
[0091]
After fitting the detonator chamber 12 in the heat transfer tube 13, the tube outer peripheral portion 13a opposite to the recessed portion 12a in the heat transfer tube 13 is recessed toward the recessed portion 12a. A protruding portion 13c can be formed on the inner peripheral portion 13b of the heat transfer tube 13 opposite to the recessed portion 12a, and the detonator chamber 12 can be fixed in the heat transfer tube 13.
[0092]
The detonator chamber 12 includes a detonator fixing part 12b for fixing the gun detonator 6 at a position where the hitting tip 5a can strike the gun detonator 6, and a detonator fixing part 12b into the transfer pipe 13 from the detonator fixing part 12b. It has an ignition passage 12c through which a flame due to the ignition of the gun detonator 6 passes.
[0093]
The ignition of the detonator 6 passes through the ignition passage 12 c and is then transmitted to the fast firing line 7 stretched in the transfer pipe 13.
[0094]
The fast firing wire 7 is stretched in the diameter direction inside the heat transfer pipe 13 and communicates with the outside of the heat transfer pipe 13. In this embodiment, the two quick firing wires 7 are stretched at a twisted position of 90 °.
[0095]
Around the heat transfer tube 13 in the warhead 4, the luminous agent 8 formed by filling a polybag 8a with a compounded medicine comprising barium nitrate, sodium oxalate, aluminum powder and magnesium powder, and The sounding agent 9 formed by filling a plastic bag 9a with a compounding drug containing potassium perchlorate, aluminum powder, and sulfur is disposed, and the luminous agent 8 passes through the plastic bag 8a. 7 is formed so as to be in contact with 7.
[0096]
Between the luminous agent 8 and the sounding agent 9, a black medicine paper 14 formed by applying black powder as an ignition accelerator to Japanese paper together with dust as a binder, and a support for supporting the black medicine paper 14 Paper 15 is interposed. In this embodiment, the light emitting agent 8 and the black medicine paper 14 are formed so as to contact each other.
[0097]
The support paper 15 is provided with an ignition transmission hole 15a so that ignition can be easily transmitted from the light emitting agent 8 to the sounding agent 9.
[0098]
When the firearm 6 is ignited and transmitted to the luminescent agent 8 by the fast-fire wire 7, the luminescent agent 8 is caused to emit light, whereby the black medicine paper 14 is ignited.
[0099]
The ignition of the black medicine paper 14 causes the sounding agent 9 to sound through the ignition transmission hole 15a in the support paper 15.
[0100]
A plurality of through holes 16 are provided on the peripheral surface of the paper cylinder 4 a in the warhead 4.
[0101]
By providing a through-hole in the peripheral surface of the paper tube 4a, when the light emitting agent 8 and the sounding agent 9 emit light and emit sound, the light emitting agent 8 and the sounding agent 9 can emit light and sound smoothly. .
[0102]
Further, the outer peripheral surface of the paper tube 4 a in the warhead 4 is covered with a paper foil 17 made of tin foil on the outer peripheral surface of the paper tube 4 a so as to close the through hole 16.
[0103]
By covering the outer peripheral surface of the paper tube 4a with the paper 17, the paper tube 4a can be reinforced and moisture can be prevented from entering from the through-holes 16; It is possible to effectively prevent alteration of the sounding agent 9 and the like due to moisture.
[0104]
In this embodiment, the weight, shape, dimensions, etc. of the warhead 4, the shaft 3, and the arrow blade 2 are designed so that the joint between the female screw 4d and the male screw 10b becomes the center of gravity. Since the light emitting sounding arrow 1 is formed, when the light emitting sounding arrow 1 is fired by, for example, a bow gun, the flight posture of the light emitting sounding arrow 1 can be stabilized.
[0105]
As shown in FIG. 1, when the light emitting sounding arrow 1 is not used, a safety plug 18 can be interposed between the upper plug 4 c and the impact plate 5 c in the warhead 4.
[0106]
By adopting the safety plug 18, even if an impact is applied to the impact plate 5c, the light emitting sound generation arrow 1 does not emit light and generate sound, so that it can be handled safely and easily.
[0107]
Hereinafter, the operation in the light emitting sounding arrow 1 will be described.
[0108]
When a gorilla that has escaped from the zoo is moving around in the forest holding a human child, an empty gun or hunting gun cannot exert a threatening effect on the gorilla because the gorilla moves. Particularly, in the hunting gun, the hunting gun cannot be used because there is a risk that a bullet hits the child.
[0109]
In such a case, it is possible to approach the gorilla by dazzling the eyes of the gorilla with the light emitting agent in the light emitting sounding arrow 1, and further stunning the gorilla with the sounding agent to confuse the gorilla. The gorilla can be accurately fired with an anesthetic bullet or a bullet, and the child can be rescued.
[0110]
First, the safety stopper 18 in the light emitting sounding arrow 1 is removed, and the light emitting sounding arrow 1 is loaded into a hand crossbow (not shown).
[0111]
Since the gorilla is moving around in the forest, the light emitting sounding arrow 1 is fired from a suitable location 10 to 20 m away from the gorilla toward the tree around the gorilla.
[0112]
When the impact plate 5 c in the light emitting sounding arrow 1 collides with a tree around the gorilla, the firing pin 5 is pushed into the warhead 4 against the urging force of the spring 11.
[0113]
The hitting tip 5a of the struck needle 5 that has been pushed hits the detonator 6, and the detonator 6 is ignited.
[0114]
The flame due to the firing of the gun detonator 6 passes through the ignition passage 12c in the detonator chamber 12, enters the heat transfer tube 13, and is stretched at a twisted position of 90 ° in the heat transfer tube 13. Are transmitted to the two fast heating lines 7.
[0115]
The firing of the detonator 6 is transmitted by the fast heating line 7 to the light emitting agent 8 filled in the poly bag 8a formed in contact with the fast heating line 7 outside the transfer tube 13, and the light emitting agent 8 is Emits light.
[0116]
Almost simultaneously with the light emission of the luminescent agent 8, the black medicine paper 14 ignites, and the flame caused by the ignition of the black medicine paper 14 passes through the ignition transmission hole 15a in the support paper 15 and fills the plastic bag 9a. Is transmitted to the generated sounding agent 9, and the sounding agent 9 produces a sound.
[0117]
Due to the light emission of the light emitting agent 8 and the sound generation of the sounding agent 9, the paper tube 4 a having a plurality of through holes 16 on the peripheral surface of the warhead 4 is shattered, and the light emission of the light emitting agent 8 and the sound generation. The pronunciation of the agent 9 diffuses around the gorilla.
[0118]
The gorilla's eyes can be dazzled by the light emission of the luminescent agent 8, the gorilla can be surprised by the pronunciation of the sound generator 9, and the gorilla can be conceived.
[0119]
An anesthesia gun is brought close to the gorilla when the gorilla crawls, and an anesthetic bullet can be shot into the gorilla, and the child can be rescued.
[0120]
【The invention's effect】
The luminescent sound emitting arrow of the present invention is (1) a warhead is provided at the tip of a shaft having an arrow feather at one end, so that a bow gun such as a hand cross bow, a bow such as an archery, or an arrow can be fired. The luminescent sound emission arrow can be fired by a device, etc. (2) The weight, shape, dimensions, etc. of the warhead, shaft, and arrow feather can be appropriately designed to adjust the position and balance of the center of gravity. Since it is formed as described above, it is possible to stabilize the flight posture of the emitted light emitting arrow, and (3) since it is not necessary to fix the light source and the sound source in a predetermined place, Can be used in a desired location, (4) can emit a desired amount of light and a desired volume according to the purpose of various events, and (5) rich in changes depending on the purpose of various events Doing the production (6) By adopting the plurality of delayed electric detonators or the plurality of delayed gun detonators, the plurality of light emitting agents and the plurality of sounding agents are caused to emit light and sound at desired time intervals. (7) Depending on the purpose of various events, the light and sound emission intervals can be changed in various ways to produce light and sound in stages, and (7) high bird and animal threat effects can be achieved. (8) It can dazzle the eyes of the birds and beasts, impact the eardrums of the birds and beasts, and startle the birds and beasts, so that the birds and beasts can be alive and lively. (9) Lifesaving and security Can be used for.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional schematic view showing an embodiment of a light emitting pronunciation arrow of the present invention.
FIG. 2 is a schematic cross-sectional view of a warhead in the luminescent pronunciation arrow of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Light emission sound arrow, 2 ... Arrow feather, 3 ... Axis, 3a ... Tip part, 3b ... Inner peripheral surface, 4 ... Warhead, 4a ... Paper cylinder, 4b ... Bottom plug, 4c ... Top plug, 4d ... Female screw, 4e ... Through mounting hole, 4f ... Inside surface, 4g ... Outside surface, 4h ... Upper end of heat transfer tube Fixing part, 4i ... Fire pipe lower end fixing part, 5 ... Firing needle, 5a ... Impacting tip part, 5b ... Falling prevention ring, 5c ... Impact plate, 5d ... Spring biasing Member: 6 ... Detonator, 7 ... Rapid line, 8 ... Luminescent agent, 8a ... Poly bag, 9 ... Sound generator, 9a ... Poly bag, 10 ... Connection tube DESCRIPTION OF SYMBOLS 10a ... Outer peripheral surface, 10b ... Male screw, 11 ... Spring, 12 ... Detonator chamber, 12a ... Depression, 12b ... Detonator fixing part, 12c ... Ignition passage, 13 ... Den Pipe, 13a ... pipe outer peripheral part, 13b ... pipe inner peripheral part, 13c ... protruding part, 14 ... black medicine paper, 15 ... support paper, 15a ... ignition transmission hole, 16 ... through holes, 17 ... corrugated paper, 18 ... safety stoppers.

Claims (1)

It has an arrowhead that is a shaft with an arrow feather at one end, and a warhead provided at the tip of the arrowhead ,
The warhead is
An impact plate that receives an impact at the time of landing and a striking tip, and a firing needle that is mounted via a biasing member so as to be operated by the impact at the time of landing;
A heat transfer tube provided with a detonator chamber in which a detonator that is ignited by striking with the hitting tip is disposed at a position opposite to the tip of the firing pin,
A fast-fire wire that is stretched in the diameter direction in the heat transfer tube, communicates with the outside of the heat transfer tube, and transmits the ignition of the detonator,
A light emitting sound emitting arrow comprising a light emitting agent and a sound generating agent arranged around the heat transfer tube so that at least one of them contacts the fast firing line .

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