| 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 | 火器传感器系统 | CN201280025322.0 | 2012-05-25 | CN103650010B | 2015-07-22 | 凯尔·希普曼; 詹姆斯·R·布鲁克 |
| 火器传感器系统,包括一个或多个传感器组和数据存储装置。各个传感器组配置用于连接至火器。其中一个传感器组包括一个用于测量枪栓相对于枪栓起始位置所在位置的传感器,以及用于无线传输传感器数据的无线传输组件。数据存储设备包括一个计算机可读介质,其上存储有可执行应用程序。当在计算设备上执行该应用程序时,应用程序经由无线通信系统接收来自传感器组的数据,并将数据呈现在显示器上显示的用户界面中。在一实施例中,传感器包括与火器上的枪栓复位弹簧联接的弹力传感器。 | ||||||
| 2 | 用于实时控制弹药消耗量的装置 | CN200780053144.1 | 2007-05-30 | CN101688765A | 2010-03-31 | 劳尔·德尔加多·阿卡热塔 |
| 本发明公开一种装置(12),基于对武器的射击循环的物理参数的获得、分析和解释,用于对使用安装在武器上的相同装弹机由枪械(11)发射的子弹的总数量进行计数,使得所获得的信息实时显示在显示屏幕上。根据本发明,虽然也可以手动方式完成这种操作,部分计数器的激活、显示和循环复位通过计算机程序在没有使用者干涉的情况下自动地执行。为了能够安全且精确地使用,显示屏幕可以显示枪械(11)操作的诸如最可能过热的那些点的温度的其它参数。 | ||||||
| 3 | 枪支计数器 | CN201610050649.3 | 2016-01-26 | CN106996715A | 2017-08-01 | 周祥军; 胡燕; 张曦; 李向国 |
| 本发明枪支计数器,涉及一种轻武器的零部件装置,特别涉及一种显示已射击子弹数目的计数装置。枪支计数器,包括依次相连的声波传感器、滤波器、与非门逻辑电路模块、编码器、缓存器、并串联转换电路和发射模块,其中滤波器有三个,分别为次声波滤波器、高频滤波器、超音频滤波器,所述次声波滤波器、高频滤波器、超音频滤波器之间相互并联设置。本发明所述枪支计数器,利用声波传感器收集子弹发射出去的声波信号实现子弹计数,本发明计数精准,实用性强,可工业化生产。 | ||||||
| 4 | 火器传感器系统 | CN201280025322.0 | 2012-05-25 | CN103650010A | 2014-03-19 | 凯尔·希普曼; 詹姆斯·R·布鲁克 |
| 火器传感器系统,包括一个或多个传感器组和数据存储装置。各个传感器组配置用于连接至火器。其中一个传感器组包括一个用于测量枪栓相对于枪栓起始位置所在位置的传感器,以及用于无线传输传感器数据的无线传输组件。数据存储设备包括一个计算机可读介质,其上存储有可执行应用程序。当在计算设备上执行该应用程序时,应用程序经由无线通信系统接收来自传感器组的数据,并将数据呈现在显示器上显示的用户界面中。在一实施例中,传感器包括与火器上的枪栓复位弹簧联接的弹力传感器。 | ||||||
| 5 | 计数装置 | CN02829493.9 | 2002-12-05 | CN100565083C | 2009-12-02 | 劳尔·德尔加多·阿卡尔雷塔 |
| 本发明涉及用于计数通过自动枪械(11)所发射的子弹的装置(12),包括容纳可以通过排出窗口排出的弹药筒的弹药筒腔。本发明装置包括第一发射装置,所述第一发射装置发射连续的电磁信号,这样对应使用的弹药筒从弹药筒腔排出的弹药筒壳体中断所述电磁信号。本发明的子弹计数装置(12)可以监测通过前述排出窗口从枪械(11)的弹药筒腔所排出的弹药筒壳体的数目并将对应安装在枪械(11)的弹盒(13)中仍然可以获得的子弹的数目显示在显示屏上。 | ||||||
| 6 | 计数装置 | CN02829493.9 | 2002-12-05 | CN1668888A | 2005-09-14 | 劳尔·德尔加多·阿卡尔雷塔 |
| 本发明涉及用于计数通过自动枪械(11)所发射的子弹的装置(12),包括容纳可以通过排出窗口排出的弹药筒的弹药筒腔。本发明装置包括第一发射装置,所述第一发射装置发射连续的电磁信号,这样对应使用的弹药筒从弹药筒腔排出的弹药筒壳体中断所述电磁信号。本发明的子弹计数装置(12)可以监测通过前述排出窗口从枪械(11)的弹药筒腔所排出的弹药筒壳体的数目并将对应安装在枪械(11)的弹盒(13)中仍然可以获得的子弹的数目显示在屏幕上。 | ||||||
| 7 | Counting device | JP2004556350 | 2002-12-05 | JP4261485B2 | 2009-04-30 | アカレータ,ラウール デルガド |
| 8 | JPH04138592U - | JP5023791 | 1991-06-04 | JPH04138592U | 1992-12-25 | |
| 9 | Device for detecting and counting shot fired by automatic or semi-automatic fire arm, and fire arm equipped with the device | JP2007183063 | 2007-07-12 | JP2008025987A | 2008-02-07 | JOANNES RENE; HEINS PATRICK; DELCOURT JEAN-PAUL |
| PROBLEM TO BE SOLVED: To provide a device for detecting and counting shots fired by an automatic or semi-automatic fire arm. SOLUTION: The device adapted to form a typical signature for the fire arm and for the type of ammunition comprises an accelerometer 2 with a pass band which is sensitive to shocks in the axial direction of a barrel and a microprocessor 3 for analyzing a signal S of the accelerometer 2 while firing. The microprocessor 3 is equipped with an algorithm to count the number of shots to be fired, based on the discernment and recording of a shot to be fired on the basis of the detection, in the signal of the accelerometer, of all or part of the characteristic elements of the acceleration signature which is typical in the type of fire arm and of in different types of ammunition to be used. These characteristic elements are recorded beforehand in a memory 4 of the device. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 10 | Fired bullet detector, ammunition managing device, and fired bullet number counting device | JP2007100956 | 2007-04-06 | JP2007298267A | 2007-11-15 | YAMAZAKI MASANORI; KAMIMURA TADATOSHI |
| PROBLEM TO BE SOLVED: To count the number of fired bullets clearly distinctly from the operation of guns or blank shot and transmit the counted number of fired bullets in no contact to a counting means arranged separately from the guns. SOLUTION: This fired bullet number counting device comprises a detector 4 for detecting physical phenomena caused by the fired bullets, determining the fire of the bullets in accordance with the sizes and lengths of specified frequency bands of detected signals, and storing accumulated determination results as the number of fired bullets in a storage part 10, a reading/writing part 13 for reading information from the storage part 10 in no contact via an antenna part 12, a control part 14 for storing, managing, counting and computing the number of supplied bullets or fired bullets, the names or identification numbers of shooters, the identification numbers of guns, and the lot numbers of used bullets, a display part 15 for displaying the number of supplied bullets or fired bullets, the names or identification numbers of shooters, the identification numbers of the guns, counting information, and computation results, and an input device 16 for inputting to the control part 14 information about the number of supplied bullets, the names or identification numbers of shooter, the identification number of guns, and the lot numbers of the used bullets. COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 11 | Counting device | JP2004556350 | 2002-12-05 | JP2006509180A | 2006-03-16 | アカレータ,ラウール デルガド |
| 自動火器(11)で発射した散弾を計数するための装置(12)は、排出窓を通して排出可能である薬莢を含む薬莢室を備え、薬莢室から排出され、かつ、使用された薬莢に相当するケーシングによって中断され、連続的な電磁信号を放出する第1の放出手段を備える。 本発明の散弾計数装置(12)は、排出窓を通して火器の薬莢室から排出されたケーシングの数をモニタすることができると共に、火器(11)に取り付けられた弾倉(13)内で残っている役に立つ散弾の相当数をディスプレイ画面上で表示することができる。 | ||||||
| 12 | Fire detector, ammunition management device and firing bullets counting equipment | JP2007100956 | 2007-04-06 | JP4996963B2 | 2012-08-08 | 忠利 上村; 正則 山▲崎▼ |
| 13 | エアガン、エアガン用弾倉、弾発射回数表示装置、およびエアガンの制御方法 | JP2005513104 | 2003-12-26 | JPWO2005066574A1 | 2007-07-26 | 宏一 鶴本 |
| 本発明は、モデルガンとしてのエアガンの電子制御に関するもので、弾倉の弾の有無を容易に検知でき、空撃ち動作を防止することにある。複数個の弾を内部に収納し、エアガンにセットされることにより、前記弾を前記エアガンのチャンバーに連続して給弾する弾倉に、前記弾倉内に収納された前記弾の有無状態を検知する弾有無検知用レバーを設け、弾有無検知用レバーからの弾無し状態の検知信号を受けて発射動作を禁止する手段を備えたことを特徴としたエアガン。 | ||||||
| 14 | JPS4837720B1 - | JP6575169 | 1969-08-21 | JPS4837720B1 | 1973-11-13 | |
| 15 | 캅스 블랙박스를 이용한 총기 관리 시스템과, 캅스 블랙박스 및 그 방법 | KR1020160075480 | 2016-06-17 | KR1020170142284A | 2017-12-28 | 구자민; 구자천; 권순찬; 강중욱 |
| 제1 캅스블랙박스로부터사용자의대상체에대한총기사용의조준동작을감지하여환경정보를수집하고, 상기사용자의조준동작에기초하여사용자를중심으로기설정된반경내에위치하는복수의제2 캅스블랙박스들로부터외부환경정보를수신하는캅스블랙박스를이용한총기관리시스템과, 캅스블랙박스및 그방법에관한것으로, 수집되는환경정보및 외부환경정보를이용하여총기사용에대한실시간모니터링을수행하여추후조치를취할수 있다. | ||||||
| 16 | 공포탄 대용 전자식 모의 탄창 및 그 제어방법 | KR1020030055468 | 2003-08-11 | KR100498085B1 | 2005-07-01 | 박승운; 박항규 |
| 본 발명은 군사훈련시에 사용되는 공포탄을 대용하여 충격·폭음·섬광, 사격모드 및 사용탄수 통제가 가능하도록 하는 공포탄 대용 전자식 모의 탄창 및 그 제어방법에 관한 것으로, 소총의 방아쇠의 당김을 감지하는 발사스위치와; 상기 방아쇠의 당김에 따라 제어신호를 받아 충격을 발생시키는 충격발생부와; 상기 방아쇠의 당김에 따라 제어신호를 받아 폭음을 발생시키는 폭음발생부와; 상기 방아쇠의 당김에 따라 제어신호를 받아 섬광을 발생시키는 섬광발생부와; 단발·점사 또는 연발을 설정할 수 있는 사격모드 설정스위치와; 장입통제/전원충전기에 의해 가상탄의 장입발수를 입력할 수 있는 가상탄 장입부와; 가상탄의 장입발수를 표시하는 잔탄표시부와; 상기 발사스위치로부터 방아쇠의 당김을 감지하는 신호를 입력받아 상기 충격·폭음·섬광 발생부를 제어하고 상기 가상탄 장입부에서 입력된 장입발수에서 사용된 가상탄의 발수를 감산하여 나머지 잔탄발수를 상기 잔탄표시부에 표시하도록 제어하는 제어부와; 전원부를 구비함으로써 공포탄과 동일한 효과를 얻을 수 있어 훈련효과를 극대화시키며, 또한 훈련비용을 절감시킬 수 있음과 아울러, 안전사고도 방지할 수 있다. | ||||||
| 17 | 공포탄 대용 전자식 모의 탄창 및 그 제어방법 | KR1020030055468 | 2003-08-11 | KR1020050017916A | 2005-02-23 | 박승운; 박항규 |
| PURPOSE: A blank shot substitution-electronic sham magazine and a control method thereof are provided to maximize a drill effect, to reduce the drill cost, and to prevent an accident. CONSTITUTION: A blank shot substitution-electronic sham magazine comprises a firing switch sensing the pull of a trigger of a rifle; a shock-producing part(12) receiving a control signal according to the pull of the trigger and producing shock; an explosion-producing part(13) receiving the control signal according to the pull of the trigger and producing explosion; a flash-producing part receiving the control signal according to the pull of the trigger and producing a flash; a shooting mode-setting switch(15) setting up a shot, point shooting, or shooting in succession; an imaginary shot-charging part(16) inputting the charged number of imaginary shots firing by a charging barrel/power charger; a remaining shot display part(17) displaying the charged number of the imaginary shots; a control part receiving the signal sensing the pull of the trigger from the firing switch, controlling the shock-producing part, the explosion-producing part, and the flash-producing part, subtracting the number of the consumed imaginary shots from the charged number of the imaginary shots input from the imaginary shot-charging part, and displaying the number of the remaining shots to the remaining shot display part. | ||||||
| 18 | SYSTEM AND METHOD FOR DETERMINING A LOCATION OF AN EVENT USING A BASE STATION | PCT/US0146440 | 2001-12-06 | WO02067484A3 | 2003-05-30 | YU PHILIP SHI-LUNG; STERN EDITH H; WILLNER BARRY E; GREENE DAVID P |
| Systems and methods are provided wherein a base device facilitates a determination of a location associated with an occurrence of an event. A location of the base device is determined, and the base device receives information from an event device fig. 3, element 602. For example, a device in a police automobile may receive information from a police handgun via a wireless communication. Information is then stored to enable a determination of a location associated with an occurrence of an event. | ||||||
| 19 | RIFLE DRY-FIRE APPARATUS AND METHOD | EP14748014.9 | 2014-07-07 | EP3019810A1 | 2016-05-18 | Hannan, Karl. E.; Marshall, William J. |
| A rifle lower receiver has a trigger well and a magazine well. A hammer is disposed in the trigger well and configured to pivot from a first hammer position to a second hammer position in response to moving a trigger from a first trigger position to a second trigger position. A gear member attached to the lower receiver has a predefined number of gear teeth and a locking pin extending from the gear member. A pawl is connected to the trigger and operationally engages the gear member to increment the gear member once per trigger pull. Upon reaching a predefined number of trigger pulls, the locking member locks the trigger. A release lever on the lower receiver is operably configured to advance the gear member one increment to unlock the trigger. A method of dry-fire training is also disclosed. | ||||||
| 20 | An apparatus and method for counting rounds fired from a firearm | EP14180527.5 | 2014-08-11 | EP2905570A1 | 2015-08-12 | AMIT, Uri; SHNEORSON, Zeev; SENDER, Haim; HAITIN, Dedi |
The subject matter discloses a round counter, comprising a detection unit configured to detect energy pulses resulting from an impact to a firearm; a round counter processor configured to analyzes data obtained by the detection unit to count a number of rounds fired from the firearm; wherein the round counter processor is configured to designate a time window data that is substantially a time length of an energy pulse; wherein the round counter processor compares the time window data to a firing window, wherein the firing window is a predetermined time length required for discharging a round from the firearm; a firing counter configured to store a number of round discharged from the firearm; wherein the firing counter increases the count when the round counter processor determines the time window data is larger than the firing window and transfers a command to the firing counter to increase the count of the firing counter; an energy source to power the round counter.
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