子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种用于爆炸操作的工业器械的弹药筒 | CN94108059.5 | 1994-07-19 | CN1103022A | 1995-05-31 | J·施津德拉 |
| 一种使用在爆炸操作的工业器械(10)中的弹药筒。弹药筒(24)包含一个挡板(60),用以保证使用过的雷管(32)在引爆弹药筒(24)后不会意外地弹入到器械10的内部。挡板(60)呈垫圈状,其具有一个朝上偏转倾斜的周边(64),该周边与一个挡气件(36)的某些部分形成过盈接合,以夹住雷管(32)。挡板(60)具有一个孔(61),该孔可接近引爆的起爆帽(68),但不会使起爆帽(68)本身从其中通过。 | ||||||
| 2 | 一种用于爆炸操作的工业器械的弹药筒 | CN94108059.5 | 1994-07-19 | CN1054095C | 2000-07-05 | J·施津德拉 |
| 一种使用在爆炸操作的工业器械(10)中的弹药筒。弹药筒(24)包含一个挡板(60),用以保证使用过的雷管(32)在引爆弹药筒(24)后不会意外地弹入到器械10的内部。挡板(6)呈垫圈状,其具有一个朝上偏转倾斜的周边(64),该周边与一个挡气件(36)的某些部分形成过盈接合,以夹住雷管(32)。挡板(60)具有一个孔(61),该孔可接近引爆的起爆帽(68),但不会使起爆帽(68)本身从其中通过。 | ||||||
| 3 | Cartridge, and gas check assembly used therein | JP18878894 | 1994-07-19 | JPH0788782A | 1995-04-04 | JIEINASU SHINDORAA |
| PURPOSE: To provide a cartridge to be used for an explosively operated industrial tool having a high reliability and safety in which a blasting cap will not be removed after explosion, and a gas check assembly to be used in this cartridge. CONSTITUTION: A gas check assembly is disposed in a shell of a cartridge. The gas check assembly comprises a gas check member 36 having an opening 40, a blasting cap 32 disposed in the opening 40, and a holding plate 60 fitted into the opening 40. When explosive on the side of the blasting cap 32 and an opening 42 explodes to apply pressure from the side of the opening 42 to the blasting cap 32, it is prohibited from being removed from the opening 40 because of the holding plate 60. | ||||||
| 4 | Vorrichtung zum Konstanthalten der innenballistischen Bedingungen in einem Waffenrohr | EP89890049.3 | 1989-02-21 | EP0330649A3 | 1990-12-05 | Auer, Ekkehard, Dipl.-Ing.; Lettner, Josef, Dipl.-Ing. Dr. |
Eine Vorrichtung zum Konstanthalten der innenballistischen Bedingungen in einem Waffenrohr (1), wobei in Abhängigkeit vom das Volumen des Laderaumes (2) vergrößernden Verschleiß des Waffenrohres (1) am Übergang vom Laderaum (2) zum Rohr (1) wenigstens eine Einlage (7) in den Laderaum (2) zur Kompensation der Volumsvergrößerung des Laderaumes eingebracht wird, besteht aus wenigstens einer ohne Beeinflussung einer Treibladung brennbaren, insbesondere langsamer brennenden Einlage (7) für den Laderaum (2). |
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| 5 | Pyrotechnic slug | US14386008 | 2013-03-10 | US09127920B2 | 2015-09-08 | Sharon Joseph; Yehiel Argaman; Tal Amlany; Amit Harpaz |
| A pyrotechnic slug, intended to be used by bomb squads to neutralize explosive devices, comprising a hollow cylinder, having an internal space, and having a projectile body made of non-metallic material, the projectile body having a closed front end and an open back end receiving a slug plug, the internal space containing a mixture cavity holding a pyrotechnic mixture, which upon ignition and explosion thereof is configured to create a weak pressure wave, and the pyrotechnic slug having an operating system comprising at least one selected from a list including: a) a mechanical impact firing system; and b) a delayed operating system; wherein the pyrotechnic slug is configured to be propelled from a barrel by one of: a) a separate cartridge; b) a unified slug comprising the projectile body inserted into a cartridge; and c) a rocket motor. | ||||||
| 6 | PYROTECHNIC SLUG | US14386008 | 2013-03-10 | US20150040745A1 | 2015-02-12 | Sharon Joseph; Yehiel Argaman; Tal Amlany; Amit Harpaz |
| A pyrotechnic slug, intended to be used by bomb squads to neutralize explosive devices, comprising a hollow cylinder, having an internal space, and having a projectile body made of non-metallic material, the projectile body having a closed front end and an open back end receiving a slug plug, the internal space containing a mixture cavity holding a pyrotechnic mixture, which upon ignition and explosion thereof is configured to create a weak pressure wave, and the pyrotechnic slug having an operating system comprising at least one selected from a list including: a) a mechanical impact firing system; and b) a delayed operating system; wherein the pyrotechnic slug is configured to be propelled from a barrel by at least one propellant means selected from a list including: a) a separate cartridge; b) a unified slug comprising the projectile body inserted into a cartridge; and c) a rocket motor. | ||||||
| 7 | Multi-mode modular projectile | US11143336 | 2005-06-02 | US07905182B2 | 2011-03-15 | Richard Janik; Richard Dryer |
| The disclosed system, device and method for providing a multi-mode munition generally includes a modular projectile assembly having an aft module suitably configured for mechanical and electrical engagement with a forward module. The aft module generally provides a common assembly for engagement with a variety of forward modules as well as engagement with cartridge casings of various calibers. Disclosed features and specifications may be suitably controlled, adapted or otherwise optionally modified to improve optimization of artillery projectiles for a specific role. Exemplary embodiments of the present invention generally provide munition cartridges that may be augmented in the field with the utilization of specialized forward modules. | ||||||
| 8 | Primer body | US10411595 | 2003-04-10 | US06857370B1 | 2005-02-22 | Herbert D. May |
| A primer assembly including an ignition element assembly, a primer head assembly and a tubular body, is presented. The primer head assembly has an exterior diameter and an internal chamber containing the ignition element assembly. The tubular body has an open head end, a closed tail end and a wall defining an internal chamber. The internal chamber of the tubular body contains an ignition charge and the head end includes an internal diameter for receiving the exterior diameter of the primer head assembly. When the primer assembly is assembled, the tubular body encloses the primer head assembly and the primer head assembly seals the internal chamber. In one embodiment, the tubular body is a one-piece, seamless metallic tube having a wall of a thickness of about 0.150 to 0.160 inch and, preferably, about 0.155 inch. | ||||||
| 9 | Compressed gas weapon | US306684 | 1994-09-15 | US5565642A | 1996-10-15 | Walter Heitz |
| A compressed gas weapon (10) is configured in the breech portion (18) of its barrel (12) to accommodate a projectile (24) in a position of readiness to fire and to reproducibly caliber the projectile (24) in the process of conveying it into the position of readiness to fire. | ||||||
| 10 | Spectroscopy for gunshot residue analysis | US15026529 | 2014-09-26 | US10001437B2 | 2018-06-19 | Igor K. Lednev |
| The present invention relates to a method of detecting inorganic gunshot residue (GSR) particles. The method includes providing a sample comprising gunshot residue, subjecting the sample to spectroscopic analysis to produce a spectroscopic signature for the sample, and identifying inorganic gunshot residue particles based on the spectroscopic signature for the sample. Also disclosed is a method of detecting gunshot residue particles. The method includes providing a sample comprising gunshot residue, subjecting the sample to spectroscopic analysis to produce a spectroscopic signature for the sample, where the spectroscopic signature spans a range of wavenumbers, creating one or more spectroscopic maps from the spectroscopic signature for the sample, where each different spectroscopic map is for a different wavenumber, and identifying gunshot residue particles based on the one or more spectroscopic maps for the sample. | ||||||
| 11 | Non-circular cross-section missile components, missiles incorporating same, and methods of operation | US12410283 | 2009-03-24 | US09151579B2 | 2015-10-06 | Phillip R. Martineau; Christopher J. Sullivan; David W. Hull; Steven C. Sara |
| A missile component such as a rocket motor case, of an initial transverse cross-sectional shape flexible into another, different cross-section responsive to application of internal pressure from ignition of a propellant grain within the component. A missile launch assembly including at least one missile of a non-circular cross-section disposed within a segment of a partitioned circular launch tube. A multi-stage missile comprising at least a first stage and a second stage having rocket motor cases of non-circular transverse cross-section, the rocket motor case of at least one of the stages being deformable into another, different cross-section. A method of launching a missile including igniting a rocket motor of a missile component having a first cross-section, internally pressurizing the missile component substantially concurrently with motor ignition and flexing the component rocket motor into a second, different cross-sectional shape. | ||||||
| 12 | Battlefield Simulation Adapter | US13936677 | 2013-07-08 | US20140041544A1 | 2014-02-13 | Michael Palazzi; James Mok |
| This is an improved battlefield simulation support system, possessing a series of adapters that permit the simulation support system to fire a variety of cartridges with varying electrical and control characteristics. The adapters can be mated with a main body that accepts control inputs and distributes them to a plurality of firing mechanisms. | ||||||
| 13 | Multi-mode modular projectile | US11143336 | 2005-06-02 | US20060272538A1 | 2006-12-07 | Richard Janik; Richard Dryer |
| The disclosed system, device and method for providing a multi-mode munition generally includes a modular projectile assembly having an aft module suitably configured for mechanical and electrical engagement with a forward module. The aft module generally provides a common assembly for engagement with a variety of forward modules as well as engagement with cartridge casings of various calibers. Disclosed features and specifications may be suitably controlled, adapted or otherwise optionally modified to improve optimization of artillery projectiles for a specific role. Exemplary embodiments of the present invention generally provide munition cartridges that may be augmented in the field with the utilization of specialized forward modules. | ||||||
| 14 | Munitions mines | US10624790 | 2003-07-21 | US20050016410A1 | 2005-01-27 | Brian Maguire |
| Mines are fabricated in the form of munitions, specifically including cartridges for firearms and several types of grenade, including both hand grenades and rocket-propelled grenades, the cartridges containing either very high energy explosives or very high temperature burning materials, that upon ignition will at least destroy the firearm in which fired or may exert lethal force against the user, while such mines in the form of grenades will explode immediately upon being activated rather than exhibit the expected time delay, both types of mines being supplied surreptitiously to an enemy force for its unknowing use, thereby to direct the lethal effect of such munitions against those enemy forces rather than the friendly forces as the enemy forces would have intended. | ||||||
| 15 | GASDRUCKWAFFE | EP93905333.6 | 1993-03-10 | EP0631658B1 | 1997-06-04 | HEITZ, Walter |
| A pressurized gas weapon (10) is designed in the region (18) furthest from the muzzle end of the barrel (12) to accommodate a projectile (24) in a firing position and to calibrate the projectile (24) in a reproducible way when it is brought into the firing position. | ||||||
| 16 | GASDRUCKWAFFE | EP93905333.0 | 1993-03-10 | EP0631658A1 | 1995-01-04 | HEITZ, Walter |
| 17 | Vorrichtung zum Konstanthalten der innenballistischen Bedingungen in einem Waffenrohr | EP89890049.3 | 1989-02-21 | EP0330649A2 | 1989-08-30 | Auer, Ekkehard, Dipl.-Ing.; Lettner, Josef, Dipl.-Ing. Dr. |
Eine Vorrichtung zum Konstanthalten der innenballistischen Bedingungen in einem Waffenrohr (1), wobei in Abhängigkeit vom das Volumen des Laderaumes (2) vergrößernden Verschleiß des Waffenrohres (1) am Übergang vom Laderaum (2) zum Rohr (1) wenigstens eine Einlage (7) in den Laderaum (2) zur Kompensation der Volumsvergrößerung des Laderaumes eingebracht wird, besteht aus wenigstens einer ohne Beeinflussung einer Treibladung brennbaren, insbesondere langsamer brennenden Einlage (7) für den Laderaum (2). |
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| 18 | PERFORATING TOOL | US14921686 | 2015-10-23 | US20170115102A1 | 2017-04-27 | Benjamin Vascal KNIGHT; Brian Marshall AUER |
| A charge tube for use with a perforating tool that includes a tubular member having a first end, a second end, an outer surface, and a passage extending between the first end and the second end, and a receptacle extending through the outer surface of the tubular member for receiving a shaped charge, wherein the tubular member includes a reduced diameter section, and a first expanded diameter section disposed at the first end of the tubular member, the first expanded diameter section having a greater diameter than the reduced diameter section, and wherein the reduced diameter section and the first expanded diameter section of the tubular member are monolithically formed. | ||||||
| 19 | SPECTROSCOPY FOR GUNSHOT RESIDUE ANALYSIS | US15026529 | 2014-09-26 | US20160238522A1 | 2016-08-18 | Igor K. LEDNEV |
| The present invention relates to a method of detecting inorganic gunshot residue (GSR) particles. The method includes providing a sample comprising gunshot residue, subjecting the sample to spectroscopic analysis to produce a spectroscopic signature for the sample, and identifying inorganic gunshot residue particles based on the spectroscopic signature for the sample. Also disclosed is a method of detecting gunshot residue particles. The method includes providing a sample comprising gunshot residue, subjecting the sample to spectroscopic analysis to produce a spectroscopic signature for the sample, where the spectroscopic signature spans a range of wavenumbers, creating one or more spectroscopic maps from the spectroscopic signature for the sample, where each different spectroscopic map is for a different wavenumber, and identifying gunshot residue particles based on the one or more spectroscopic maps for the sample. | ||||||
| 20 | Gun disabling exploding bullet | US14158530 | 2014-01-17 | US08887638B1 | 2014-11-18 | S. Mill Calvert |
| A capsule is configured to have the outward appearance of a cartridge for a firearm and the capsule is designed to explode within a chamber of a firearm and disable the firearm when fired from the firearm. The capsule includes a casing; a bullet shaped container; a high explosive and a primer. The casing is made to fit within a firing chamber of the firearm. A bullet-shaped container holds a high explosive and fits within the casing to give an outward appearance of an ordinary bullet in a regular cartridge for that firearm. The primer is accessible to a firing pin of the firearm acting on the casing. The primer includes a small charge of a mixture in contact with the high explosive such that when the primer is struck by the firing pin of the firearm, the primer causes the high explosive to detonate disabling the firearm. | ||||||
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