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 | 用于比赛的子弹及其制造方法 | CN201680003603.4 | 2016-12-30 | CN107003103A | 2017-08-01 | 任冠男; 包玉奇; 苗向鹏 |
| 一种用于比赛的子弹及其制造方法。其中,所述子弹(1)包括:第一注塑体(10)和第二注塑体(20),所述第一注塑体(10)的外表面(100)上设有支撑件(30),所述第二注塑体(20)包覆于所述第一注塑体(10)的外表面(100)并使所述支撑件(30)自所述第二注塑体(20)裸露。本发明的用于比赛的子弹,通过在所述第一注塑体的外表面上设置支撑件,便于在所述第一注塑体上注塑形成包覆于所述第一注塑体外表面的第二注塑体,并能够使所述支撑件自所述第二注塑体裸露,能够使支撑件作为子弹的花纹,并形成具有双层注塑体结构的子弹,提高了子弹的外观效果及功能性。 | ||||||
| 2 | 一种液体投射弹及其投射装置和投送方法 | CN201210466226.1 | 2012-11-16 | CN102935274A | 2013-02-20 | 尹学军; 孔祥斐; 尹柏婷; 王乾安 |
| 本发明涉及一种液体投射弹及其投射装置和投送方法。其包括弹壳,特征是弹壳内装有功能液体,弹壳由易撞击破裂的柔性或硬质材料制成。本发明功能液体包括水,酒精,燃油,以及水与灭火剂、肥料或者药剂的混合液。本发明液体投射弹及其投射装置,经济实用,操作简便,利用投射装置投送液体投射弹的方法,简单易行,投送效率高,市场应用前景十分广阔。 | ||||||
| 3 | 一种新型防空空心弹 | CN201710437512.8 | 2017-06-09 | CN107218858A | 2017-09-29 | 陈志华; 赵强; 黄振贵; 孙晓晖; 高建国; 杜宏宝 |
| 本发明公开了一种新型防空空心弹,包括弹体、弹带和弹托;弹体为中空的圆管,管壁厚度由两端开始向中部递增;弹托为圆柱体一端设置有凸起,另一端设置有拱形缺口;弹体的一端套在凸起上,与弹托连接在一起;弹带是长条形的,固定在弹体上。弹体、弹托与弹带的设计更加合理,结合更加紧密,使得整个空心弹到达一定距离的目标所用时间更短、动能更大,且命中精度更高;结构更加简单,加工更加容易,生产成本更低。 | ||||||
| 4 | 一种弹体构造式快速充气诱饵飞机 | CN201710337171.7 | 2017-05-14 | CN107014248A | 2017-08-04 | 李德福 |
| 本发明涉及到一种弹体构造式快速充气诱饵飞机。其特征在于整个诱饵飞机在未充气打开之前,其外形结构呈长弹体型结构,长弹体分为三部分:长弹体前段部分为未充气诱饵飞机收藏弹仓部分,该部分由弹仓外壳、未充气收折的诱饵飞机、设置在诱饵飞机内的工作桶组成,所述工作桶包括气体发生控制电路及气体发生器和高爆弹及高爆弹引爆雷达组成;长弹体中段绝热部分;长弹体后段弹药推进部分,该部分由弹药壳体、推进弹药构成;所述长弹体中段绝热部分主要是将弹药推进部分产生的热量进行阻隔。本发明的一种弹体构造式快速充气诱饵飞机具有构思巧妙简单,结构新颖的优点,而且到达目标上空时间短速度块,生产周期短,成本低。 | ||||||
| 5 | 一种液体投射弹及其投射装置和投送方法 | CN201210466226.1 | 2012-11-16 | CN102935274B | 2015-12-30 | 尹学军; 孔祥斐; 尹柏婷; 王乾安 |
| 本发明涉及一种液体投射弹及其投射装置和投送方法。其包括弹壳,特征是弹壳内装有功能液体,弹壳由易撞击破裂的柔性或硬质材料制成。本发明功能液体包括水,酒精,燃油,以及水与灭火剂、肥料或者药剂的混合液。本发明液体投射弹及其投射装置,经济实用,操作简便,利用投射装置投送液体投射弹的方法,简单易行,投送效率高,市场应用前景十分广阔。 | ||||||
| 6 | PROJECTILE | EP15200126.9 | 2015-12-15 | EP3043141B1 | 2018-02-14 | Williams, Christopher; Finlayson, James |
| The present invention provides a projectile (1) for use in a simulated fan-blade-off ballistic test. The projectile has an ellipsoid body (5) having a blind axial bore (3) extending from a first axial end. The blind axial bore is for housing a weight adjustment body (9) which can be used to modify the weight and/or centre of gravity of the projectile. A sealing plug (10) may seal the weight adjustment body within the axial bore and an insert may be provided to fix the position of the weight adjustment body and/or to control the sliding of the weight adjustment body within the axial bore. | ||||||
| 7 | Propulsion unit for firing a projectile | EP13165431.1 | 2007-12-14 | EP2639543A1 | 2013-09-18 | Rosales, Rene; Bishop, Ben |
A propulsion unit (30,40) for firing a projectile from a projectile launcher, the propulsion unit comprising a high pressure chamber containing propellant (54), a primer for igniting the propellant (54) and a circuit board (53) wherein the circuit board (53) is connected to the primer by an electrical interface with electrical contacts. Preferably said electrical interface is a pin (56).
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| 8 | ADAPTOR FOR STACKABLE PROJECTILE | EP07845370.1 | 2007-12-14 | EP2102580A1 | 2009-09-23 | ROSALES, Rene; BISHOP, Ben |
| A propulsion unit (30,40) for firing a projectile from a projectile launcher, the propulsion unit comprising a high pressure chamber containing propellant (54), a primer for igniting the propellant (54) and a circuit board (53) wherein the circuit board (53) is connected to the primer by an electrical interface with electrical contacts. Preferably said electrical interface is a pin (56). | ||||||
| 9 | ADAPTOR FOR STACKABLE PROJECTILE | EP07845370 | 2007-12-14 | EP2102580A4 | 2012-10-24 | ROSALES RENE; BISHOP BEN |
| A propulsion unit (30,40) for firing a projectile from a projectile launcher, the propulsion unit comprising a high pressure chamber containing propellant (54), a primer for igniting the propellant (54) and a circuit board (53) wherein the circuit board (53) is connected to the primer by an electrical interface with electrical contacts. Preferably said electrical interface is a pin (56). | ||||||
| 10 | Caseless ammunition projectile having separate propellant charge and hand firearm for firing same | EP80302604.6 | 1980-07-30 | EP0024144B1 | 1984-06-06 | Junker, Ralph Daniel |
| 11 | Caseless ammunition projectile having separate propellant charge and hand firearm for firing same | EP80302604.6 | 1980-07-30 | EP0024144A1 | 1981-02-25 | Junker, Ralph Daniel |
The firearm (10) fire projectiles (22 22A) by ignition of a separate propellant cartridge (24) disposed therebehind. The firearm comprises a body including a receiver (12), a barrel (14) connected to the receiver, and a firing chamber (17) communicating with a bore of the barrel. A bolt (20) is slidably mounted in the body and includes two pockets (26,28) for receiving the projectile (22) and the cartridge (24) and for advancing them to an armed position within the firing chamber (17). In order to increase the safety of the firearm in use and of the manufacture and storage of the cartridge the primer charge (66) for igniting the cartridge (24) is disposed within a metal casing (48) within the projectile (22 22A). A portion (32) of the bolt (20) is arranged to ignite the primer charge (66) when the projectile reaches the armed position. |
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| 12 | 다용도탄 및 그 고정클립 | KR2020040021067 | 2004-07-23 | KR200364514Y1 | 2004-10-19 | 이성호 |
| 본 고안은 성형장약탄으로서 특히 소형임에도 강력한 화력을 발휘하여 사람에 의해 각종 무기, 기동장비, 설비, 시설들을 일순간에 간단히 무력화 또는 파손시킬 수 있는 다용도탄 및 그 고정을 위한 고정클립에 관한 것으로, 특히 다용도탄의 상부 머리에 전기뇌관(또는 비전기뇌관)의 안정된 설치를 위한 전기뇌관 고정핀과 용이한 보관을 위한 안내경사부가 형성되고, 고정클립에는 다용도탄의 하단을 안정적으로 고정하는 하방지지편과 전기뇌관의 입구부를 고정할 수 있는 뇌관고정편이 형성되어 사용이 더욱 간편하고 더욱 안정되고 정교한 설치가 가능한 다용도탄 및 그 고정클립에 관한 것이다. | ||||||
| 13 | PROJECTILE | EP15200126.9 | 2015-12-15 | EP3043141A1 | 2016-07-13 | Williams, Christopher; Finlayson, James |
The present invention provides a projectile (1) for use in a simulated fan-blade-off ballistic test. The projectile has an ellipsoid body (5) having a blind axial bore (3) extending from a first axial end. The blind axial bore is for housing a weight adjustment body (9) which can be used to modify the weight and/or centre of gravity of the projectile. A sealing plug (10) may seal the weight adjustment body within the axial bore and an insert may be provided to fix the position of the weight adjustment body and/or to control the sliding of the weight adjustment body within the axial bore.
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| 14 | CLAY-PIGEON-LIKE PROJECTILE FOR CROWD CONTROL | EP13838814 | 2013-09-08 | EP2898285A4 | 2016-04-27 | FRIDMAN OFER; BEN YEHUDA YARIV |
| A crowd control projectile includes a payload carrier, an incapacitating agent inside the payload carrier, and an activating mechanism for activating the incapacitating agent. The activating mechanism includes a sensor and a timer. The timer delays the activation until a predetermined delay after the sensor senses that the projectile has been launched. Alternatively, the activating mechanism includes a receiver for receiving an activation signal after the projectile has been launched. Preferably, the projectile has the shape of a clay pigeon. A launcher of such a projectile includes a communication mechanism for transmitting a timing signal or an activation signal to the projectile and an arm for launching the projectile by direct contact. To control a crowd, the projectile is launched over the crowd by direct contact with a solid arm and the activating mechanism is used to activate the incapacitating agent when the projectile is above the crowd. | ||||||
| 15 | PROJECTILE POUR ARME A LETALITE REDUITE | EP11718435.8 | 2011-03-30 | EP2691731B1 | 2015-09-23 | DANNAWI, Marwan; JACQUET, Jean-François |
| 16 | PROJECTILE POUR ARME A LETALITE REDUITE | EP11718435.8 | 2011-03-30 | EP2691731A1 | 2014-02-05 | DANNAWI, Marwan; JACQUET, Jean-François |
| The invention relates to a less lethal weapon projectile having an overall cylindrical shape of longitudinal axis ( L) and comprising a front end (4) in the shape of a spherical or approximately spherical cap and a rear end (2). According to the invention, the projectile includes: a core (6) made from aluminium foam, having an overall cylindrical shape centred on the above-mentioned axis ( L) and comprising a front end (16) and a rear end (13) with a rear face (14), said front end (16) taking the form of a spherical or substantially spherical cap; a base (5) assembled with the aforementioned rear end (13) of the core (6) and comprising a front wall (9), which is arranged transversely to the axis ( L) and which covers the rear face (14) of the core (6); and an outer case (7) that covers at least the front end (16) of the core (6). The centre of gravity and the centre of thrust of the projectile correspond perfectly, so that the projectile has good external ballistics. | ||||||
| 17 | Stackable projectile | US13936982 | 2013-07-08 | US09778005B2 | 2017-10-03 | Rene Rosales; Ben Bishop |
| The present invention relates to stackable projectiles having a warhead and a propulsion unit. An adaptor enables the warhead to be coupled to propulsion units made of different materials. Furthermore, an adaptor couples different profiles of warheads and propulsion units and allows projectiles to be stacked without need for design modifications. The assembled projectile can be fired electrically or mechanically. | ||||||
| 18 | Methods of utilizing projectiles | US15141630 | 2016-04-28 | US09752858B2 | 2017-09-05 | Otto S. Krauss; John W. Westbrook, III |
| Charged projectile assemblies include a housing and an electronic assembly configured to produce an electric field about at least a portion of the housing of the projectile. Cartridge assemblies for use with firearms include charged projectiles. Methods of charging a projectile include forming an electric field about at least a portion of a projectile and extending the electric field at least partially between a forward portion of the projectile and an aft portion of the projectile. | ||||||
| 19 | Apparatus, methods, and systems for electromagnetic projectile launching | US13751259 | 2013-01-28 | US09062949B1 | 2015-06-23 | Mark Joseph Clemen, Jr.; James A. Grossnickle |
| Apparatus, methods, and systems for electromagnetic projectile launching are described. In one example, a projectile for use with an electromagnetic launcher includes an armature configured to couple to a payload and configured for acceleration by the electromagnetic launcher. The armature includes a superconductor material. | ||||||
| 20 | CHARGED PROJECTILES AND RELATED ASSEMBLIES, SYSTEMS AND METHODS | US13789147 | 2013-03-07 | US20140230684A1 | 2014-08-21 | Otto S. Krauss; John W. Westbrook, III |
| Charged projectile assemblies include a housing and an electronic assembly configured to produce an electric field about at least a portion of the housing of the projectile. Cartridge assemblies for use with firearms include charged projectiles. Methods of charging a projectile include forming an electric field about at least a portion of a projectile and extending the electric field at least partially between a forward portion of the projectile and an aft portion of the projectile. | ||||||
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