WO2011065225A1 - 模擬銃および模擬銃の薬莢 - Google Patents
模擬銃および模擬銃の薬莢 Download PDFInfo
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- WO2011065225A1 WO2011065225A1 PCT/JP2010/069986 JP2010069986W WO2011065225A1 WO 2011065225 A1 WO2011065225 A1 WO 2011065225A1 JP 2010069986 W JP2010069986 W JP 2010069986W WO 2011065225 A1 WO2011065225 A1 WO 2011065225A1
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- WIPO (PCT)
- Prior art keywords
- case
- ignition
- cartridge
- gun
- outer case
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F41—WEAPONS
- F41A—FUNCTIONAL FEATURES OR DETAILS COMMON TO BOTH SMALLARMS AND ORDNANCE, e.g. CANNONS; MOUNTINGS FOR SMALLARMS OR ORDNANCE
- F41A33/00—Adaptations for training; Gun simulators
- F41A33/04—Acoustical simulation of gun fire, e.g. by pyrotechnic means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B33/00—Manufacture of ammunition; Dismantling of ammunition; Apparatus therefor
- F42B33/001—Devices or processes for assembling ammunition, cartridges or cartridge elements from parts
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B5/00—Cartridge ammunition, e.g. separately-loaded propellant charges
- F42B5/02—Cartridges, i.e. cases with charge and missile
- F42B5/08—Cartridges, i.e. cases with charge and missile modified for electric ignition
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F42—AMMUNITION; BLASTING
- F42B—EXPLOSIVE CHARGES, e.g. FOR BLASTING, FIREWORKS, AMMUNITION
- F42B8/00—Practice or training ammunition
- F42B8/02—Cartridges
- F42B8/04—Blank cartridges, i.e. primed cartridges without projectile but containing an explosive or combustible powder charge
Definitions
- the present invention relates to a simulated gun and a cartridge case of a simulated gun, and more particularly to an electric ignition type simulated gun and a reusable cartridge case used for a simulated gun.
- simulated guns are manufactured to be very similar to real guns, especially when used in feature films, dramas, theaters, etc., in order to make the action when used more authentic, it looks like real guns It is required to emit a firing sound, generate fire and smoke from the muzzle, and perform the operation of loading and discharging the cartridge case.
- the charge member used in this known electric simulation gun has a completely different shape from the cartridge used for the actual gun, and the mounting / discharging operation of the cartridge cannot be simulated, and the shape of the muzzle is also actual. There was a problem that it was different from a gun.
- the present invention solves the problems of the prior art as described above, that is, the object of the present invention is a shape very similar to a real gun and a cartridge used for the real gun, and is fired like a real gun.
- a case main body that is open at least at the front and loaded with explosives therein, an ignition member that electrically ignites the explosives, and an ignition member and electric that are loaded behind the case main body.
- An electrically ignited simulated gun shell having a bottom member that is electrically conductive, wherein the case body includes a hollow cylindrical outer case, and an inner member that is slidable in the outer case and can be loaded with explosives.
- the outer case has an opening for locking the falling off of the inner member in the front and an engaging groove in the rear outer peripheral surface, and the inner member can protrude from the opening of the outer case.
- the present invention solves the above-described problem by being configured to be loadable between the inner member and the bottom member.
- the outer case in addition to the structure of the cartridge case of the simulated gun described in claim 1, the outer case is configured such that the front case and the rear case are detachably fitted, The problem is further solved.
- the ignition member is formed in a ring shape having a hollow portion with an insulating material, and the hollow While the heating wire which extends to both surfaces through a part is provided and the explosive for ignition is loaded in the said hollow part, the said subject is further solved.
- a conductor having a diameter slightly larger than the inner diameter of the outer case is provided between the ignition member and the inner member.
- the said subject is further solved by arrange
- the invention according to claim 5 can be loaded with the cartridge case of the simulated gun according to any one of claims 1 to 4 behind the barrel, and has a free bottom that slides and presses the cartridge case in the barrel direction.
- An electric ignition type simulated gun capable of igniting a gunpowder in a cartridge case by operating a trigger, wherein the barrel has a holding part contacting the tip side of the cartridge case, and penetrates from the holding part to the tip part A through hole for loosely fitting an engaging claw that has an ejection hole and the free bottom engages with an engaging groove provided in an outer case of the case and an ejector that contacts the bottom of the case when the case is retracted;
- the problem is solved by having a through groove and a current supply member that supplies current from the bottom member.
- the cartridge case of the simulated gun according to the first aspect of the present invention is such that an electric current is applied to the bottom member from the rear side of the cartridge case to ignite the propellant gunpowder by the ignition member and also ignite the gunpowder gunpowder through the guide hole.
- a gunshot sound that resembles a real gun, and the ignited explosive expelled from the front of the case through the muzzle of the simulated gun generates ignition and smoke similar to a real gun.
- Pressure is generated, and the cartridge case is retracted every time of ignition by the pressure, so that the simulation gun can be discharged.
- the outer case a shape very similar to a real bullet, the mounting and discharging operations can be made to resemble the actual gun operation.
- the outer case is detachably fitted to the front case and the rear case, the assembly can be facilitated, the used case can be disassembled, and the inner member can be reloaded with explosives for reuse. .
- the outer case is easily assembled by the front case and the rear case being detachably fitted, and the used case is disassembled to form the inner member. Can be reloaded with gunpowder and reused.
- the propellant for propulsion can be made safe because the ignition member can be independently loaded with a small amount of an easily ignited explosive for ignition of the propellant for propulsion. This improves the safety of assembling and reusing the cartridge case.
- the conduction between the heating wire and the outer case can be achieved by inserting a metal plate having a diameter larger than the inner diameter of the outer case. Therefore, the ignition member can be reliably ignited, and an ignition mistake due to insufficient cleaning of the inner surface of the outer case during assembly and reuse of the cartridge case can be prevented.
- the simulated gun according to the fifth aspect of the present invention is an actual gun in which an electric current is applied to the bottom member from the back of the cartridge case to ignite the propellant for propelling by the igniting member and also ignite the explosive gunpowder through the guide hole.
- the firing gunpowder that ignites is emitted from the tip of the barrel through the nozzle hole to generate ignition / smoke similar to an actual gun, and the inner member is brought into contact with the presser for propulsion.
- FIG. 7 is an operation explanatory diagram after FIG. 6.
- FIG. 8 is an operation explanatory diagram after FIG. 7. Operation
- the cartridge case of the simulated gun of the present invention has a case main body that is opened at least at the front and loaded with gunpowder, an ignition member that electrically ignites the gunpowder, and a rear part of the case main body that is electrically connected to the ignition member.
- An electrically ignited simulated gun shell having a conductive bottom part, wherein the case body comprises a hollow cylindrical outer case and an inner member that is slidable in the outer case and can be loaded with explosives.
- Has a stepped cylindrical shape having an opening for locking the falling off of the inner member on the front, an engagement groove on the rear outer peripheral surface, and a small diameter portion on which the inner member can protrude from the opening of the outer case.
- a front chamber that is opened forward and loaded with explosive gunpowder and a rear chamber that is opened rearward and loaded with propellant gunpowder, and the front chamber and the rear chamber are guided.
- Crater The bottom member is formed so as to be fitted to the rear end of the outer case via an insulating member, and the ignition member is configured to be loadable between the inner member and the bottom member. It can be used with an ignition-type simulated gun, has a shape very similar to a cartridge case used for an actual gun, emits a sound similar to that of an actual gun, generates fire and smoke from the muzzle of the simulated gun, and is attached to the simulated gun As long as the discharge operation can be performed and can be safely reused, any specific embodiment may be used.
- the simulated gun of the present invention can be loaded with the cartridge case of the simulated gun according to any one of claims 1 to 4 behind the barrel, and has a free bottom that slides and presses the cartridge case in the barrel direction
- An electric ignition type simulated gun that can ignite gunpowder in a cartridge case by operating a trigger, and the barrel has a holding part that comes into contact with the tip side of the cartridge case, and a jet that penetrates from the holding part to the tip part A through-hole or through-groove that has a hole and has a loose bottom that engages with an engaging groove provided in an outer case of the case and an ejector that contacts the bottom of the case when the case is retracted
- a current supply member that supplies current from the bottom member, has a shape very similar to that of an actual gun, emits a sound similar to that of an actual gun, generates ignition / smoke from the muzzle, and mounts / discharges the cartridge case If the action can be performed, the specific embodiment is May no even what made things.
- a simulated gun cartridge 100 includes a hollow cylindrical outer case 110 and an inner member 120 that can slide in the outer case 110 and can be loaded with explosives. And have.
- a front case 111 and a rear case 113 are detachably fitted to each other by screw connection.
- An opening 112 having a reduced diameter is provided in front of the front case 111.
- a bottom diameter-reduced opening 115 having a reduced diameter is provided, and an engaging groove 114 is provided on the outer peripheral surface thereof.
- the outer shape of the inner member 120 is formed in a stepped cylindrical shape, and the front side of the step portion 121 provided in the middle in the front-rear direction is formed as a small diameter portion that can project from the opening 112 of the front case 111.
- the rear side is formed in a large diameter portion that slides with substantially the same diameter as the hollow inner diameter of the outer case 110.
- the front case 111 may be a short one having only the opening 112, and the outer case 110 is integrated to the opening, and the large diameter portion of the inner member 120 is locked inward from the opening to protrude.
- a member such as a pin for preventing this may be detachably provided.
- a circumferential groove 125 is provided on the outer peripheral surface of the large-diameter portion, and an O-ring 126 is mounted, so that the pressure generated by the propellant for propulsion is not released without increasing the dimensional accuracy of the inner member and the outer case.
- Can be used as pressure can be manufactured at low cost, and can be reused by replacing only inexpensive O-links even if the slide surface of the inner member and outer case is soiled by ignition, increasing the number of reuses Can be made.
- the circumferential groove 125 and the O-ring 126 may be provided as necessary.
- the inner member 120 is provided with a front chamber 122 opened forward and loaded with explosive gunpowder, and a rear chamber 123 opened rearward and loaded with propellant gunpowder.
- the chamber 123 is formed so as to communicate with a small-diameter fire hole 124.
- the sliding amount of the inner member 120 in the outer case 110, that is, the length of the large-diameter portion is appropriately selected within a range in which the mounting / discharging operation to the simulated gun can be performed by the pressure of the propellant for propelling. Can do.
- a bottom member 130 is fitted into an opening 115 having a reduced diameter at the rear of the rear case 113 via an insulating member 131, and an ignition member 140 is sandwiched between the inner member 120 and the bottom member 130. It is configured to be fixedly loadable.
- the ignition member 140 is formed of an insulating material in a ring shape having a hollow portion 141. As shown in FIG. 3, the ignition member 140 is provided with heating wires 142 extending to both surfaces through the hollow portion 141, and the hollow portion 141 is ignited. The gunpowder is loaded.
- the front surface of the heating wire 142 extends to the outer periphery, and the rear surface of the mounting member 140 has a step formed on the outer periphery, and the heating wire 142 extends to the front of the step portion.
- an electric circuit extending from the bottom member 130 to the outer case 110 through the heating wire 142 is insulated by the insulating member 131.
- a plurality of heating wires 142 may be provided in the radial direction as necessary in order to prevent ignition errors due to disconnection or poor conduction.
- the surface heating wire 142 located on the front side and the outer case 110 are more electrically connected to each other, and the inner surface of the outer case 110 when the case is assembled and reused.
- a thin metal such as copper formed between the inner member 120 in front of the ignition member 140 and having a larger diameter than the inner diameter of the outer case 110 as shown in FIG.
- the simulated gun 200 is configured to be able to load the cartridge case 100 behind the barrel 220, and has a free bottom 210 behind the loading part of the cartridge case 100.
- the play bottom 210 is configured to slide in the direction of the barrel 220 by the pressing spring 204 to press the cartridge case 100 against the barrel 220.
- the barrel 220 has a holding portion 221 that contacts the tip of the inner member 120 beyond the reduced diameter opening 112 provided in the front case 111 of the cartridge case 100, and from the holding portion 221 to the tip. It has a jet hole 222 penetrating to the part.
- the free bottom 210 has an engaging claw 214 that engages with an engaging groove 114 provided in the rear case 113 of the case 100 and a bottom of the case 100 when the case 100 slides backward. It has a through groove 213 for loosely fitting the ejector 212 in contact with it, and a current supply member 211 for applying a voltage in contact with the bottom member 130 of the cartridge case 100.
- the current supply member 211 is pressed toward the bottom of the case 100 within the play sole 210, and is regulated so as to slightly protrude from the play bottom 210 without the case 100 by a step provided in the middle.
- the simulated gun 200 is provided with a switch 202 for detecting the operation of the trigger 201.
- the current generator 203 receives a signal from the switch 202 and applies a voltage to the contact member 211, which is necessary for the explosion of the explosive for ignition. It is configured to pass a large current.
- a signal is supplied from the switch 202 to the current generator 203 only once by a single operation of the trigger 201 mechanically or electrically, or until the current generator 203 interrupts the signal of the switch 202 for a certain time. Only by generating the current only, the firing operation is not performed continuously even if the trigger 201 is continuously held. Further, the simulated gun 200 is provided with a magazine 205 that continuously supplies new cartridge cases from below after the cartridge case 100 is discharged to the side after the explosive explosion.
- the propellant for propulsion loaded in the rear chamber 123 of the adjacent inner member 120 and the spray gunpowder loaded in the front chamber 122 of the inner member 120 through the guide hole 124 almost instantaneously. Ignites and emits a sound similar to a real gun.
- the explosive explosive loaded in the front chamber 122 of the inner member 120 is ejected from the muzzle through the ejection hole 222 of the barrel 220 to generate ignition / smoke similar to an actual gun.
- a portion other than the inner member 120 of the cartridge case 100 is driven rearward by the explosive pressure of the propellant charged in the rear chamber 123 of the inner member 120, and the pressing force of the pressing spring 204 is increased by the driving force of the cartridge case 100. Resist the sliding bottom 210 backward.
- the case 100 including the inner member 120 is further propelled rearward and further slides the loose bottom 210 backward.
- the position of the ejector 212 loosely fitted in the through groove 213 of the free bottom 210 is fixed independently of the free bottom 210 and relatively approaches the bottom of the cartridge case 100 and comes into contact with the state shown in FIG. .
- the ejector 212 protrudes forward from the free bottom 210 and prevents the cartridge case 100 from moving backward on the side of the bottom of the case 100.
- the engaging claw 214 provided on the loose bottom 210 is engaged with the engaging groove 114 provided on the rear case 113 of the case 100, and the speed at which the case 100 is further propelled backward is maintained. Therefore, a rotational moment is generated in the case 100 on the side of the engaging claw 214 and is discharged to the side.
- the present invention has a shape very similar to an actual gun and a cartridge case used for an actual gun, emits a sound similar to that of an actual gun, generates firing / smoke from a muzzle, and mounts / discharges the cartridge case It is possible to provide an electric ignition type simulated gun capable of performing the above and a cartridge case of the simulated gun.
- the cartridge case 100 can be disassembled, and an economical simulated gun case can be provided that can be used repeatedly by reloading the inner member and the ignition member with the gunpowder.
- the ignition member must be made of an inexpensive insulating material, the heating wire is likely to break every time it is ignited, and the explosives of the ignition explosive loaded in the hollow portion are high and must be handled with care. Therefore, only the ignition member may be discarded for each use.
- the outer case 110 is integrated to the opening, and the opening is inward. The large diameter portion of the inner member 120 may be locked by being deformed.
- the cartridge of the simulated gun of the present invention can also be used for a simulated gun having a structure other than the above-described embodiment.
- it can be used for a so-called revolver type simulated gun having a rotary magazine.
- It may be used for a machine gun type simulated gun that forcibly supplies a plurality of cartridge cases.
- the cartridge of the simulated gun according to the present invention can be used repeatedly with the explosive loaded on the inner member, it does not require a discharge action due to the pressure of the propellant for propulsion like the revolver type and machine gun type described above. When used for a gun, it is possible to reduce the amount of propellant explosives or to reduce the explosive power.
- the current supply to the ignition member 140 includes a contactless bottom member 330 having a power receiving coil 331 wound around a ferrite core, an iron core or the like at the bottom of the case 100,
- a non-contact current supply member 411 having a power supply coil 412 wound around a ferrite core, an iron core or the like is provided on the floating bottom 210 of the simulation gun 200, and a power reception coil 331 is supplied by supplying high-frequency alternating current from the current generator 203 to the power supply coil 412. It is also possible to supply power to the cartridge case 100 from the floating bottom 210 in a non-contact manner by generating a current.
- One of the conductive wires of the power receiving coil 331 of the non-contact bottom member 330 is connected to the ignition member-side energizing plate 332 and the other is connected to the case-side energizing plate 333, whereby the heating wire 142 of the ignition member 140 is connected from the case-side energizing plate 333.
- An electric current flows through the rear case 113 and ignites the ignition explosive charged in the hollow portion 141 of the ignition member 140.
- the contactless bottom member 330 and the contactless current supply member 411 are not energized even if the surface of the contactless current supply member 411 is contaminated with dirt or the like. Maintenance can also be improved.
- the ignition member 140 is also provided with a coil-like wiring, and coils are provided on both sides of the contactless bottom member 330 so that the current conduction path is completed inside the ignition member 140 and the bottom member 130, thereby completely contactless.
- the maintainability is further improved and the defective launch operation can be reduced.
- the holding part 221 of the simulated gun 200 is formed in a convex shape that contacts the tip of the inner member 120 beyond the opening 112 provided in the outer case 110 of the cartridge case 100.
- the shape is such that there is no convex portion that abuts only at the tip of the outer case 110, and the inner member 120 is propelled forward to some extent by ignition of the explosive, and then abuts against the presser portion 221 so that the cartridge case 100 propels the free bottom backward. May be.
- the cartridge case 500 has a structure in which the inner member is omitted, the front case 511 of the outer case 510 extends into the rear case 513, holds the ignition member 540, and the front case 511 is filled with explosives.
- the simulated gun By making the simulated gun have a structure in which a small diameter portion is provided in the middle of the ejection hole, a part of the explosive pressure of the gunpowder ejected forward from the ejection hole of the simulated gun is a pressure for propelling the cartridge case 500 backward.
- an electric ignition type simulated gun capable of performing the mounting / discharging operation of the cartridge case and the cartridge case of the simulated gun.
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Abstract
Description
また、アウターケースを実弾と酷似した形状とすることにより、装着・排出の動作も実銃の動作に酷似させることができる。
アウターケースが前方ケースと後方ケースとが着脱可能に嵌合されてなることにより組立が容易になるとともに、使用後の薬莢を分解し、インナー部材に火薬を再装填して再利用することができる。
本発明の実施例である模擬銃の薬莢100は、図1、図2に示すように、中空円筒状のアウターケース110と、該アウターケース110内をスライド可能で火薬を装填可能なインナー部材120とを有している。
なお、円周溝125およびOリング126は、必要に応じて設ければ良い。
なお、インナー部材120のアウターケース110内でのスライド量、すなわち、大径部の長さは、推進用火薬の圧力によって模擬銃への装着・排出動作を行うことができる範囲で適宜選択することができる。
また、図12に示すように、着火部材140の装着時に前方に位置する表面の電熱線142とアウターケース110の電気的導通をより良くし、薬莢の組立、再利用時のアウターケース110の内面の清掃不足による点火ミスを防止するために、着火部材140の前方のインナー部材120との間に、図13に示すような、アウターケース110の内径より大径に形成された銅等の薄い金属板143を装着することで、電熱線142とアウターケース110との電気的な導通を確実に行うようにしても良い。
本発明の実施例である模擬銃200は、図4に示すように、銃身220の後方に薬莢100を装填可能に構成され、薬莢100の装填部の後方には遊底210を有しており、遊底210が押圧ばね204により銃身220方向にスライドして薬莢100を銃身220に押圧するように構成されている。
電流供給部材211は遊底210内で薬莢100の底部に向けて押圧されており、途中に設けられた段部によって、薬莢100が無い状態で遊底210からわずかに突出するように規制されている。
さらに、模擬銃200には薬莢100が火薬の爆発後に側方に排出された後、連続的に新たな薬莢を下方から供給するマガジン205が設けられている。
まず、薬莢100が模擬銃200に図5に示すように装填された状態で電流供給部材211に電圧が印加されると、底部部材130、着火部材140の電熱線142を通って後方ケース113へと電流が流れ、着火部材140の中空部141に装填された着火用火薬に点火される。
一方、遊底210の貫通溝213に遊嵌されているイジェクタ212は、遊底210とは独立して位置が固定されており、相対的に薬莢100の底部に接近して図8の状態で接触する。
このとき、遊底210に設けられた係合爪214が薬莢100の後方ケース113に設けられた係合溝114に係合しているとともに、さらに薬莢100が後方に推進される速度が持続しているため、薬莢100には係合爪214側に回転モーメントが発生し、側方に排出されることとなる。
なお、着火部材については、安価な絶縁材料で構成されること、電熱線が着火毎に断線する可能性が高いこと、中空部に装填する着火用火薬の爆発性が高く慎重に取り扱う必要があることから、着火部材のみを1回使用毎に廃棄するようにしても良い。
また、他の構成部材も経済的な問題がなければ、すべて1回使用毎に廃棄するようにしても良く、その場合、アウターケース110を開口部まで一体のものとし、開口部を内方に変形させてインナー部材120の大径部を係止するようにしても良い。
110 ・・・アウターケース
111 ・・・前方ケース
112 ・・・縮径開口部
113 ・・・後方ケース
114 ・・・係合溝
115 ・・・底部縮径開口部
120 ・・・インナー部材
121 ・・・段部
122 ・・・前方薬室
123 ・・・後方薬室
124 ・・・導火孔
125 ・・・円周溝
126 ・・・Oリング
130 ・・・底部部材
131 ・・・絶縁部材
140 ・・・着火部材
141 ・・・中空部
142 ・・・電熱線
143 ・・・金属板
200 ・・・模擬銃
201 ・・・トリガ
202 ・・・スイッチ
203 ・・・電流発生装置
204 ・・・押圧ばね
205 ・・・マガジン
210 ・・・遊底
211 ・・・電流供給部材
212 ・・・イジェクタ
213 ・・・貫通溝
214 ・・・係合爪
220 ・・・銃身
221 ・・・押え部
222 ・・・噴出孔
330 ・・・無接点底部部材
331 ・・・受電コイル
332 ・・・着火部材側通電板
333 ・・・薬莢側通電板
411 ・・・無接点電流供給部材
412 ・・・給電コイル
500 ・・・薬莢(インナー部材のないタイプ)
510 ・・・アウターケース
Claims (5)
- 少なくとも前方が開口し内部に火薬が装填されるケース本体と、前記火薬を電気的に着火する着火部材と、前記ケース本体の後方に装填されて着火部材と電気的に導通する底部部材とを有する電気着火式の模擬銃の薬莢であって、
前記ケース本体が、中空円筒状のアウターケースと、該アウターケース内をスライド可能で火薬を装填可能なインナー部材からなり、
前記アウターケースが、前方にインナー部材の脱落を係止する開口部を有するとともに、後方の外周面に係合溝を有し、
前記インナー部材が、前記アウターケースの開口部から突出可能な小径部を有する段付き円筒形状に形成されるとともに、前方に開口し噴出用火薬が装填される前方薬室と、後方に開口し推進用火薬が装填される後方薬室とを有し、
前記前方薬室と後方薬室とが、導火孔により連通するように形成され、
前記底部部材が、前記アウターケースの後方端部に絶縁部材を介して嵌合可能に形成され、
前記着火部材が、前記インナー部材と前記底部部材の間に装填可能に構成されたことを特徴とする模擬銃の薬莢。 - 前記アウターケースが、前方ケースと後方ケースとが着脱可能に嵌合されてなることを特徴とする請求項1に記載の模擬銃の薬莢。
- 前記着火部材が、絶縁材料で中空部を有するリング形状に形成され、該中空部を通って両表面に延びる電熱線が設けられるとともに、前記中空部に着火用火薬が装填されることを特徴とする請求項1または請求項2に記載の模擬銃の薬莢。
- 前記着火部材と前記インナー部材の間に、前記アウターケースの内径よりわずかに大径の導電体からなり前記着火部材の電熱線と前記アウターケースとを導通する導電補助板が配置されていることを特徴とする請求項4に記載の模擬銃の薬莢。
- 銃身の後方に請求項1乃至請求項4のいずれかに記載の模擬銃の薬莢を装填可能で、薬莢を銃身方向にスライドして押圧する遊底を有し、トリガを操作することで薬莢内の火薬に点火可能な電気着火式の模擬銃であって、
前記銃身が、薬莢の先端側に当接する押え部を有するとともに、該押え部から先端部まで貫通する噴出孔を有し、
前記遊底が、薬莢のアウターケースに設けられた係合溝に係合する係合爪と、薬莢が後退した際に薬莢の底部に当接するイジェクタを遊嵌する貫通孔あるいは貫通溝と、前記底部部材から電流を供給する電流供給部材とを有していることを特徴とする模擬銃。
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US13/511,136 US8689697B2 (en) | 2009-11-26 | 2010-11-10 | Simulated firearm and cartridge for simulated firearm |
JP2011543202A JP5273883B2 (ja) | 2009-11-26 | 2010-11-10 | 模擬銃および模擬銃の薬莢 |
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---|---|---|---|---|
US12004484B1 (en) | 2023-07-28 | 2024-06-11 | Finished Retriever LLC | Boom gun system |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US8834152B1 (en) * | 2014-04-24 | 2014-09-16 | FFTC Associates | Firearm flame thrower combination |
US20160116262A1 (en) * | 2014-10-25 | 2016-04-28 | Benjamin J. Morgan | System and Method for Timing Firearm Practice Drills |
US10690462B2 (en) * | 2016-12-20 | 2020-06-23 | Bryant Gerfin | Secondary malfunction training round |
US10712135B1 (en) * | 2019-09-23 | 2020-07-14 | Jesse Bullock | Non-projectile cartridge for firearm |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2379041A1 (fr) * | 1977-01-28 | 1978-08-25 | France Etat | Dispositif de tir a blanc pour arme a culasse inertielle |
US5438907A (en) * | 1994-08-15 | 1995-08-08 | Reynolds; George L. | Blank firing adaptor |
US5493975A (en) * | 1995-02-21 | 1996-02-27 | Burndy Corporation | Cartridge for a power driven tool |
JP2002162198A (ja) * | 2000-11-27 | 2002-06-07 | Nichiyu Giken Kogyo Co Ltd | 模擬弾丸を有する空包 |
Family Cites Families (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US533776A (en) | 1895-02-05 | Box-mover | ||
DE3238270A1 (de) * | 1982-10-15 | 1984-04-26 | Dynamit Nobel Ag, 5210 Troisdorf | Manoeverpatrone |
US5396844A (en) * | 1992-05-08 | 1995-03-14 | Hessey; B. Russell | Ammunition for simulated firearm |
US5233776A (en) * | 1992-05-08 | 1993-08-10 | Hessey B Russell | Simulated firearm |
US6189454B1 (en) * | 1998-12-30 | 2001-02-20 | Gary D. Hunt | Inert practice round with solid body |
US6971314B2 (en) * | 2003-07-21 | 2005-12-06 | Brian Maguire | Munitions mines |
JP3632178B1 (ja) * | 2003-12-12 | 2005-03-23 | 春夫 阿部 | 弾頭可動装置 |
US8430035B2 (en) * | 2004-04-27 | 2013-04-30 | Charles J. Ducastel, JR. | Cartridge and chamber for simulated firearm |
US7926405B2 (en) * | 2005-08-15 | 2011-04-19 | Ducastel Jr Charles J | Simulated firearm |
-
2010
- 2010-11-10 JP JP2011543202A patent/JP5273883B2/ja active Active
- 2010-11-10 US US13/511,136 patent/US8689697B2/en active Active
- 2010-11-10 WO PCT/JP2010/069986 patent/WO2011065225A1/ja active Application Filing
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2379041A1 (fr) * | 1977-01-28 | 1978-08-25 | France Etat | Dispositif de tir a blanc pour arme a culasse inertielle |
US5438907A (en) * | 1994-08-15 | 1995-08-08 | Reynolds; George L. | Blank firing adaptor |
US5493975A (en) * | 1995-02-21 | 1996-02-27 | Burndy Corporation | Cartridge for a power driven tool |
JP2002162198A (ja) * | 2000-11-27 | 2002-06-07 | Nichiyu Giken Kogyo Co Ltd | 模擬弾丸を有する空包 |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US12004484B1 (en) | 2023-07-28 | 2024-06-11 | Finished Retriever LLC | Boom gun system |
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JPWO2011065225A1 (ja) | 2013-04-11 |
US20120233900A1 (en) | 2012-09-20 |
US8689697B2 (en) | 2014-04-08 |
JP5273883B2 (ja) | 2013-08-28 |
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