181 |
Pyrotechnic ignition apparatus |
US145499 |
1993-11-01 |
US5450686A |
1995-09-19 |
Joseph L. La Mura; Ronald C. Wallenburg |
A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit using different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. |
182 |
Weapon discharge simulation system and electrostatically discharged
pyrotechnic cartridge for use in said system |
US575169 |
1990-08-30 |
US5235127A |
1993-08-10 |
Stephan D. Findley |
A device for simulating weapons firing by igniting various signature cartridges both singularly and in multiple burst sequences. A electronic timing source which provides the necessary control and impulses to perform said ignition. A unique cartridge design which provides safe and reliable performance. |
183 |
Apparatus and method for interfacing indirect-fire devices with MILES |
US691603 |
1991-04-18 |
US5199874A |
1993-04-06 |
Carl J. Campagnuolo; Jerome D. Gerber; Wesley K. Clark |
An acoustic receiver for interfacing indirect-fire weapons with the Multi Integrated Laser Engagement System ("MILES") responds to the presence of a device when the device generates a predetermined acoustic signal upon simulated explosion. The simulator then momentarily disconnects the MILES power supply from the rest of the MILES circuit. This action causes the MILES to generate an audible alarm indicating a hit by the explosive device. |
184 |
Gunfire simulator |
US845181 |
1992-03-03 |
US5180878A |
1993-01-19 |
Clifford Denchfield |
A gunfire simulator has a combustion chamber, means for admitting fuel gas to the combustion chamber, inlet valve means for admitting oxygen or an oxygen containing gas to the combustion chamber, ignition means for igniting fuel gas in the combustion chamber, an exhaust port in the combustion chamber and outlet valve means for closing the exhaust port and arranged to open rapidly in response to a pressure rise within the combustion chamber. Preferably the outlet valve means comprises a frangible diaphragm, which may be clamped by its marginal portion in a breach block during combustion. |
185 |
Pyrotechnic ignition apparatus and method |
US419549 |
1989-10-10 |
US5157222A |
1992-10-20 |
Joseph L. La Mura; Ronald C. Wallenburg |
A plurality of magazines each receive an array of pyrotechnic devices. The magazines are latched to a fire control and support assembly which automatically engages the fire control circuit to each device of each magazine. The circuit ignites all devices of all the magazines in a given serial sequence. The system, under control of an operator, when turned off, may be restarted at the beginning of a selected sequence, at the point where the last device was ignited and continue the sequence or at selected different portions of devices. Different size devices can be ignited by one circuit having different magazines all coupled to one unit. Safety features also include delay ignition after startup and sounding an alarm before any device is ignited. A CPU is enabled by a fire command signal and disabled by internal programmed instructions. The CPU is periodically enabled in a device ignition cycle by external timing signals initiated by the CPU when enabled. |
186 |
Weapons effect signature simulator |
US344859 |
1982-02-01 |
US4416630A |
1983-11-22 |
James M. Hagen; James D. King |
A realistic audio-visual effects generator for simulating anti-tank and a-aircraft missile launching. A pyrotechnic cartridge having disc at one end that ruptures and allows the efflux of the products of combustion to exit through a hole in the breech block which is placed at the muzzle end of the firing chamber. Along with the simulated cartridge discharge is electrical circuitry for determining if the cartridge has been properly chambered.The circuitry acts to prohibit firing should it be determined that incorrect installation has occurred. Upon initiation of firing a conventional laser transmitter is actuated for simulating firing of the weapon. |
187 |
Pyrotechnic devices and systems and firing circuits therefor |
US116436 |
1980-01-29 |
US4325304A |
1982-04-20 |
Peter T. Ormiston |
A pyrotechnic system comprises a plurality of pyrotechnic charges or devices 20 arranged in a matrix of recesses 14 formed in a block 12 of a synthetic resin material.In one embodiment, each device 20 contains a fast-burning pyrotechnic composition 42 arranged to be fired by an electrical primer 50, for producing a flash and/or a bang, and a slow-burning pyrotechnic composition 40 separated from the composition 42 and arranged to be ignited by the firing of the composition 42. Embedded in the composition 40 is a fine wire loop 48 which is ruptured by the burning of the composition 40. The primers 50 of the devices 20 are connected in parallel between two input terminals 52, 54, and each loop 48 is connected to short-circuit the primer 50 of the next device 20 in the firing sequence. The pyrotechnic system is thus self-sequencing.In another embodiment, respective rupturable conductors 98 are formed on blast-removable portions 96 of a printed circuit which is secured to the top of the block 12 with the blast-removable portions disposed over the mouths of the recesses 14. |
188 |
Automatic weapon simulator |
US787726 |
1977-04-11 |
US4217717A |
1980-08-19 |
Michael P. Canty; Don W. Caudy; Donald J. Hackman; Jeremy M. Harris; Robert W. Mowery; George R. Riley; Beverly D. Trott |
A device for simulating the firing of an automatic weapon by firing bulletsoth singularly and in bursts. A timing source provides electrical impulses which are randomly spaced in time and also provides pulses which are closely spaced to represent bursts. The bullets are fired by primers which are programmed by the timing source. |
189 |
Firing equipment for simulating gunfire |
US70260768 |
1968-02-02 |
US3535809A |
1970-10-27 |
HOFFMANN OSWALD |
|
190 |
Popgun with extended barrel for projecting puff of air |
US3465741D |
1965-06-15 |
US3465741A |
1969-09-09 |
DANIEL RICHARD I; WESLEY ROBERT O |
|
191 |
Weapon fire simulator |
US30657863 |
1963-09-04 |
US3238642A |
1966-03-08 |
INGVAR OHLUND JOHN ALEX |
|
192 |
Pyrotechnic device |
US78355947 |
1947-11-01 |
US2548946A |
1951-04-17 |
CLAUSER HERBERT C; LONG ROBERT S |
|
193 |
Confection explosive shell. |
US1909521367 |
1909-10-06 |
US950591A |
1910-03-01 |
BRAQUIER LEON |
|
194 |
Pyrotechnic helmet |
US387657D |
|
US387657A |
1888-08-14 |
|
|
195 |
Improvement in pyrotechnic signals |
US155782D |
|
US155782A |
1874-10-06 |
|
|
196 |
SIMULATING AN EXPLOSION OF AN IMPROVISED EXPLOSIVE DEVICE |
PCT/US2007071063 |
2007-06-13 |
WO2008097324A3 |
2008-12-11 |
SCHAEFFER DIANA P; DOYLE THOMAS |
According to one embodiment, a system for simulating an actual explosion of an explosive device includes one or more firing devices (20) and a control module (24). A firing device (20) comprises a pyrotechnic device operable to direct a pyrotechnic explosion in a predetermined direction to simulate the actual explosion of the explosive device. The control module (24) receives a trigger signal from a trigger device, which is operable to send the trigger signal in response to a trigger event. The control module (24) detonates the firing devices (20) in response to the trigger signal. |
197 |
MULTI-ACCESSORY INCORPORATION FIREARM GRIP |
PCT/IL2004001051 |
2004-11-16 |
WO2005047801A3 |
2005-09-22 |
HENKIN YEHEZKEL |
A multifunction supplementary grip for attachment to a firearm provides a supplementary grip, and a means for removably attaching to the firearm a variety of accessories. |
198 |
一种空包弹连响声光发生器 |
CN200320129223.5 |
2003-12-24 |
CN2663909Y |
2004-12-15 |
穆林 |
本实用新型公开了一种空包弹连响声光发生器,它以一钢结构的机框为主体,机框前端连有抗压膛,抗压膛前端配装有助退器,机框内、抗压膛后设有机体及进退簧,机框的尾部设有后端盖,进退簧的另一端与后端盖相连,进退簧内设一簧杆;机框下端设有机座及匣座,匣座下端配装有弹匣,弹匣内装有空包弹,机座上设有阻铁及击发连动装置,机体为一半空心钢圆柱体,其前端设有抓壳钩,其上设有三道轨道凹槽及可沿机框纵向移动的机柄,阻铁上设有伸入机框内的凸块;弹匣后部设有弹匣扣,弹匣扣与阻铁上的钩体相配接。本实用新型操作安全、结构简单、效果逼真,且可以线控、遥控实现一人规模化操作。 |
199 |
模拟重机枪炮弹组 |
CN200920259916.3 |
2009-12-30 |
CN201583206U |
2010-09-15 |
张寿金; 周明生; 刘冬明 |
本实用新型公开了一种模拟重机枪炮弹组,该炮弹组以重机枪管径为外径由若干组烟花炮筒排列而成,每组烟花炮筒具有三个单只烟花炮筒,用一根引线串联并且其中一个烟花炮筒中装有电点火头。本实用新型的这种模拟重机枪炮弹组,以重机枪管径为外径由若干组烟花炮筒排列而成,防雨、抗冲击,经浸水、振动、跌落、及高温试验后其性能不变,具有很高的稳定性,瞎火率为零,发射后无明火不燃烧,不会造成人员伤亡,成本低,大大减少了军费开支,并且能够达到演习所需的逼真效果。 |
200 |
一种炮管能伸缩的礼炮 |
CN200720307171.4 |
2007-12-21 |
CN201129979Y |
2008-10-08 |
申方祥 |
本实用新型公开了一种炮管能伸缩的礼炮,包括炮管,炮管安装在炮身上,它还设有气缸和电磁阀,炮管上套有钢套,炮管可在钢套内滑动,气缸上设有推进支架,一侧推进支架设在炮管上另一侧推进支架设在炮管的钢套上,气缸通过气管与电磁阀相联,总进气管与电磁阀相联,总进气管上还设有总气阀。本实用新型在鸣放时炮管能随着响声做伸缩运动,其形象看起来完美壮观。 |