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Patent Agency Ranking
公开(公告)号:KR101865778B1
公开(公告)日:2018-06-08
申请号:KR1020170180856
申请日:2017-12-27
Applicant: 국방과학연구소
Abstract: 본발명은신관으로부터비행시작신호를전송받아작동하는타이머, 상기신관으로부터전송받은이벤트모니터링신호와기폭확인신호를기록하는메모리, 상기신관이기폭하면절단되는기폭확인선을포함하며상기기폭확인선의절단으로상기기폭확인신호의변화가감지되면변화시점을상기타이머에저장하고상기변화시점을기준으로상기메모리에저장된상기이벤트모니터링신호와상기기폭확인신호를비교하여비행시작시점과기폭발생시점의시간차이를산출하는것을특징으로하는신관기폭시간측정장치와, 기록시작신호의발생시점부터이벤트모니터링신호와기폭확인신호를휘발성메모리에저장하는제1저장단계, 신관이기폭하는시점을검출하는기폭발생시점검출단계, 상기기폭발생시점전후의기 설정된시간동안의상기이벤트모니터링신호와상기기폭확인신호를비휘발성메모리에저장하는제2저장단계, 상기휘발성메모리에저장된상기이벤트모니터링신호와상기기폭확인신호를비교하여비행시작시점과상기기폭발생시점의시간차이를산출하는계산단계를포함하는것을특징으로하는신관기폭시간측정방법에관한것이다.
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公开(公告)号:KR101782492B1
公开(公告)日:2017-09-27
申请号:KR1020170043877
申请日:2017-04-04
Applicant: 국방과학연구소
CPC classification number: F42C11/006 , F42C9/16 , F42C11/008 , F42C14/06
Abstract: 본발명은회전탄조립체에서신관의장전(arming)과신관내부의전지를동시에활성화되도록하는것으로서, 본발명의실시예에따른회전탄신관은, 회전탄조립체내에장착된신관내부에배치된로타조립체와; 상기로타조립체의외주에서로이격되도록일정하게배치되고, 상기로타조립체의회전을구속하는복수의디텐트스프링과; 상기로타조립체의회전중심에위치한로타조립체축과; 상기로타조립체축과접촉하고, 상기로타조립체축에의해구속된강구와; 상기강구와대향하는방향에위치한전지와; 상기전지의활성화에의해동작하는지연기폭회로또는자폭회로를포함할수 있다.
Abstract translation: 根据本发明实施例的旋转内胎管包括设置在旋转管组件内的可旋转组件,设置在旋转管组件内的转子组件, 。 多个止动弹簧,其布置成与转子组件的外周间隔开并限制转子组件的旋转; 位于转子组件的旋转中心处的转子组件轴; 钢球与转子组件轴接触并受转子组件轴约束; 电池定位在与钢球相反的方向上; 还有一个延迟点火电路或一个通过电池启动而工作的自动点火电路。
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公开(公告)号:KR101146565B1
公开(公告)日:2012-05-25
申请号:KR1020110018188
申请日:2011-02-28
Applicant: 국방과학연구소
CPC classification number: H03M13/136 , H03M13/6508
Abstract: PURPOSE: An apparatus for recognizing an RM(Reed Muller) code and a method thereof are provided to perform decoding without receiving help from a transmission side by estimating the degree of a recognized RM code. CONSTITUTION: An apparatus for recognizing an RM(Reed Muller) code comprises a code word receiving unit(100), a first RM code recognition unit(200), a second RM code recognition unit(300), and a code determination unit(400). The code word receiving unit divides any received data stream into a preset code length. The first RM code recognition unit performs calculation which is necessary for determining a first RM code of any received data stream offered from the code word receiving unit. The second RM code recognition unit is composed of a masking operation module, a second FHT(Fast Hadamard Transform) operating module, a second maximum value selection module, and a second maximum value average calculation module. The code determination unit checks the RM code.
Abstract translation: 目的:提供用于识别RM(Reed Muller)码的装置及其方法,以通过估计识别的RM码的程度来执行解码而不从发送侧接收帮助。 构成:用于识别RM(Reed Muller)代码的装置包括代码字接收单元(100),第一RM代码识别单元(200),第二RM代码识别单元(300)和代码确定单元(400) )。 代码字接收单元将任何接收到的数据流分成预设的代码长度。 第一RM代码识别单元执行用于确定从码字接收单元提供的任何接收的数据流的第一RM代码所需的计算。 第二RM代码识别单元由掩蔽操作模块,第二FHT(快速哈达马特变换)操作模块,第二最大值选择模块和第二最大值平均计算模块组成。 代码确定单元检查RM代码。
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公开(公告)号:KR101436145B1
公开(公告)日:2014-09-01
申请号:KR1020140017468
申请日:2014-02-14
Applicant: 국방과학연구소
Abstract: According to a system to automatically inspect a safety state of a manufactured ammunition fuse of the present invention, an ammunition fuse input image (10), which is a radioactive image (X-ray image or neutron beam-based image) of an inner portion of the assembly-finished ammunition fuse, is acquired; and this is used for automatic determination of a safety/danger state of the ammunition fuse. Accordingly, inspection accuracy can be higher than that of a visual inspection, and mixing of a defective fuse can be prevented. Also, the automatic inspection can contribute to the improvement of convenience for inspection.
Abstract translation: 根据本发明的自动检查制造的弹药保险丝的安全状态的系统,作为内部的放射性图像(X射线图像或中子束的图像)的弹药熔丝输入图像(10) 的装配完成的弹药保险丝,被收购; 这用于自动确定弹药保险丝的安全/危险状态。 因此,检查精度可以高于目视检查精度,并且可以防止缺陷熔丝的混合。 此外,自动检查有助于提高检查的便利性。
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