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公开(公告)号:KR101631642B1
公开(公告)日:2016-06-17
申请号:KR1020150069026
申请日:2015-05-18
Applicant: 국방과학연구소
Abstract: 본발명은차량에고정되는고정어셈블리, 상기고정어셈블리에결합되고, 모의작용제를살포하도록이루어지는살포기, 지표면에살포되는상기모의작용제의액적상태를조절하도록상기고정어셈블리에회전가능하게연결되고살포된상기모의작용제를응집하며상기지표면으로반사시키도록이루어지는반사판및상기고정어셈블리에고정되고, 상기반사판과상기지표면사이의각도를조절가능하게하여서상기반사판의회전운동을가이드하는각도플레이트를포함하는지표면액적형성용살포장치를개시한다.
Abstract translation: 根据本发明,公开了一种在地面上形成液滴的喷射装置, 并模拟污染在地面上的液体的现场环境。 喷涂装置包括:固定在车辆上的固定组件; 一个与定影组件组合的喷雾器,喷涂模拟剂; 连接到所述固定组件的反射板,以能够旋转和调节喷射在地面上的模拟剂的液体状态,使喷射的模拟剂凝聚,并将附聚的模拟剂反射到地面; 以及固定在固定组件上的角板,可以调节反射板与地面之间的角度,以引导反射板的旋转运动。
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公开(公告)号:KR101596368B1
公开(公告)日:2016-02-22
申请号:KR1020140086009
申请日:2014-07-09
Applicant: 국방과학연구소
Abstract: 본발명의일체화된임팩터및 사이클론장치에는반경방향으로가속되어충격의방향이수평방향으로이루어지는링형노즐(ring shaped nozzle)형임팩터(10)를전처리분리기로사용하고, 후단에는습식축방향사이클론을통하여지정된입자의크기를갖는입자를포함하는용액을만들어내는사이클론(20)으로구성되고, 임팩터(10)와축 방향사이클론(20)이특별한장치없이직렬식으로곧바로연결됨으로써소형화에있어매우유리하면서고유량에서보다효율적인특징을갖는다.
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公开(公告)号:KR1020140114692A
公开(公告)日:2014-09-29
申请号:KR1020130029372
申请日:2013-03-19
Applicant: 국방과학연구소
Abstract: The present invention relates to a collision-type inertial impactor and, particularly, to a collision-type inertial impactor which is more effective at high flow rate and can shrink in size, the impactor including: an inlet part having a strip ring-like shape and receiving influent fluid and particles; a deceleration part including a collecting surface which collects particles with a size of not less than a predetermined size when the particles introduced through the inlet part move according to flow velocity; and a body in which particles having a size of less than the predetermined size are not collected and are discharged to an outlet along flow of the fluid, wherein the collecting surface is disposed in a gravitational direction so that an impact direction becomes a horizontal direction when the particles collide with the collecting surface.
Abstract translation: 本发明涉及一种碰撞型惯性冲击器,特别涉及一种在高流量下更有效且能够收缩的碰撞式惯性冲击器,该冲击器包括:具有带状环状的入口部 并接收流入的流体和颗粒; 当通过入口部分引入的颗粒根据流速移动时,减速部分包括收集尺寸不小于预定尺寸的颗粒的收集表面; 并且其中尺寸小于预定尺寸的颗粒不被收集并沿着流体的流动被排放到出口的主体,其中所述收集表面沿着重力方向设置成使得冲击方向成为水平方向, 颗粒与收集表面碰撞。
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公开(公告)号:KR101246661B1
公开(公告)日:2013-03-25
申请号:KR1020120069541
申请日:2012-06-28
Applicant: 국방과학연구소
CPC classification number: G01N1/2208 , G01N15/1459 , G01N21/53 , G01N21/6486 , G01N2001/2223 , G01N2015/0046
Abstract: PURPOSE: A real-time fluorescence detection apparatus for particles floating in the atmosphere is provided to quickly monitor harmful bioparticles in real time. CONSTITUTION: A real-time fluorescence detection apparatus comprises a particle concentration unit and an optical particle measuring unit. The particle concentration unit selects and concentrates floating particles in the atmosphere. The optical particle measuring unit comprises a particle introduction unit(210), a hexahedron optical chamber, a beam-forming optical system(250), a beam absorption system(260), a pair of reflectors, a particle discharge unit(240), and a beam-separating optical system.
Abstract translation: 目的:提供实时荧光检测装置,用于浮选大气中的颗粒,实时快速监测有害生物颗粒。 构成:实时荧光检测装置包括粒子浓度单位和光学粒子测定单元。 颗粒浓度单位选择并浓缩浮选颗粒在大气中。 光学粒子测量单元包括粒子引入单元(210),六面体光学腔室,束形成光学系统(250),束吸收系统(260),一对反射器,粒子排出单元(240) 和光束分离光学系统。
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公开(公告)号:KR100405898B1
公开(公告)日:2003-11-14
申请号:KR1020010034148
申请日:2001-06-16
Applicant: 국방과학연구소
IPC: G01N21/27
Abstract: PURPOSE: A method for detecting analyzed material is provided to detect microingredient or analyzed material having small molecular mass, by improving sensitivity of the surface plasmon resonance sensor through the attachment colloidal gold to the analyzed material. CONSTITUTION: A method for detecting analyzed material, comprises a first step of activating sensor chip of a surface plasmon resonance sensor; a second step of attaching an analyzed material and a material which is to be combined with the analyzed material, to the sensor chip; a third step of producing an analyzed material-colloidal gold combination by attaching a colloidal gold to the analyzed material; a fourth step of injecting the analyzed material-colloidal gold combination to the surface of the sensor chip where the material to be combined with the analyzed material is attached; a fifth step of reacting the analyzed material and the material to be coupled with the analyzed material; and a sixth step of measuring changes of surface plasmon resonance angle.
Abstract translation: 目的:提供一种用于检测分析材料的方法,以通过附着胶体金提高表面等离子体共振传感器对分析材料的灵敏度来检测具有小分子量的微量成分或分析材料。 构成:用于检测分析材料的方法包括激活表面等离子体共振传感器的传感器芯片的第一步骤; 将分析材料和要与分析材料组合的材料附着到传感器芯片的第二步骤; 第三步,通过将胶体金附着到分析的材料来产生分析的材料 - 胶体金组合; 第四步骤,将分析的材料 - 胶体金组合注射到传感器芯片的表面,其中待与分析的材料组合的材料被附接到传感器芯片的表面; 第五步,使分析材料和要与分析材料偶联的材料反应; 以及测量表面等离子体共振角变化的第六步骤。
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Patent Agency Ranking
公开(公告)号:KR1020020096101A
公开(公告)日:2002-12-31
申请号:KR1020010034148
申请日:2001-06-16
Applicant: 국방과학연구소
IPC: G01N21/27
Abstract: PURPOSE: A method for detecting analyzed material is provided to detect microingredient or analyzed material having small molecular mass, by improving sensitivity of the surface plasmon resonance sensor through the attachment colloidal gold to the analyzed material. CONSTITUTION: A method for detecting analyzed material, comprises a first step of activating sensor chip of a surface plasmon resonance sensor; a second step of attaching an analyzed material and a material which is to be combined with the analyzed material, to the sensor chip; a third step of producing an analyzed material-colloidal gold combination by attaching a colloidal gold to the analyzed material; a fourth step of injecting the analyzed material-colloidal gold combination to the surface of the sensor chip where the material to be combined with the analyzed material is attached; a fifth step of reacting the analyzed material and the material to be coupled with the analyzed material; and a sixth step of measuring changes of surface plasmon resonance angle.
Abstract translation: 目的:提供检测分析材料的方法,通过提高表面等离子体共振传感器通过附着胶体金对分析材料的敏感性来检测分子量小的分析物质。 构成:检测分析材料的方法,包括激活表面等离子体共振传感器的传感器芯片的第一步骤; 将分析的材料和要与分析材料组合的材料附着到传感器芯片的第二步骤; 通过将胶态金附着到所分析的材料上来生产分析材料胶体金组合的第三步骤; 将分析的材料 - 胶体金组合物注入到与被分析材料组合的材料的传感器芯片的表面上的第四步骤; 使所分析的材料与待分析材料结合的材料反应的第五步骤; 以及测量表面等离子体共振角的变化的第六步骤。
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公开(公告)号:KR101806894B1
公开(公告)日:2017-12-08
申请号:KR1020150148229
申请日:2015-10-23
Applicant: 국방과학연구소
CPC classification number: H01S3/0404 , H01S3/0405 , H01S3/061 , H01S3/0941
Abstract: 본발명은, 서로다른복수의방향들을향하여여기빔(excitation beam)을방출하는레이저다이오드부와, 상기레이저다이오드부에서방출되는여기빔을흡수하여레이저발진을일으키도록상기레이저다이오드부와마주보게배치되는레이저이득매질과, 상기레이저이득매질에서상기여기빔이흡수되는영역을노출시킨상태로상기레이저이득매질을고정시키고공랭식에의해상기레이저이득매질에서발생되는열을전달받아외부환경으로방출시키도록형성되는이득매질장착부, 및상기레이저다이오드부를고정시키고공랭식에의해상기레이저다이오드부로부터열을전달받아외부환경으로방출시키도록형성되는레이저다이오드장착부를포함하는것을특징으로하는공랭식레이저다이오드여기챔버를제공한다.
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公开(公告)号:KR101668080B1
公开(公告)日:2016-10-19
申请号:KR1020150114860
申请日:2015-08-13
Applicant: 국방과학연구소
Abstract: 본발명은지표면화학물질검출용라만분광장치에관한것으로서, 외함, 산란광을발생시키기위한레이저빔을발생시키는광원부, 상기광원부에서조사된레이저빔을지표면으로전달하는송광부및 상기분석대상화학물질로부터산란된산란광을수광하는수광부를구비하는탐지유닛; 하우징, 상기하우징의각 설치면에구비되는분산광학계및 상기분산광학계에서제공된라만산란스펙트럼을파장에대응하여검출및 증폭하는검출기를구비하여상기분석대상화학물질을검출하고, 필요시 상기탐지유닛에대해상대위치조절이가능하게구성되는분광유닛; 및복수의광섬유를구비하여구성되고, 상기수광부에서집광된산란광을상기분광유닛에전달하는광섬유뭉치조립체;를구비하여구성된다. 이에의해, 필요시 서로상대위치조절을용이하게할 수있어상기탐지유닛에서발생된열에의한상기분광유닛의악영향발생을억제할수 있다.
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公开(公告)号:KR101658564B1
公开(公告)日:2016-09-21
申请号:KR1020150114429
申请日:2015-08-13
Applicant: 국방과학연구소
IPC: H01S3/06 , H01S3/109 , H01S3/13 , H01S3/0941 , H01S3/04
CPC classification number: H01S3/109 , G02B5/04 , G02B5/208 , G02F1/353 , G02F1/3532 , G02F2001/3507 , G02F2001/354 , H01S3/0071 , H01S3/0078 , H01S3/0092 , H01S3/0401 , H01S3/0405 , H01S3/08059 , H01S3/0941 , H01S3/115
Abstract: 본발명은레이저다이오드펌핑방식의고체레이저를이용한조화파발생장치에관한것으로, 포로프리즘(10) 구조의공진기구성을통하여외부환경변화에둔감하여출력안정성을가지면서최종출력부에서광경로의변화없이 4차조화파와 5차조화파를선택적으로출력할수 있는고차조화파발생장치를개시한다.
Abstract translation: 本发明涉及使用激光二极管泵浦方法的固态激光器的高次谐波发生装置。 公开了具有对环境变化无响应的波罗棱镜(10)结构的谐振配置的高次谐波产生装置,具有输出稳定性,并且可以选择性地输出四次谐波和五次谐波而不改变 最终输出部分的光路。 高次谐波发生装置包括非线性晶体和最终发光部分。
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公开(公告)号:KR1020150106580A
公开(公告)日:2015-09-22
申请号:KR1020140028808
申请日:2014-03-12
Applicant: 국방과학연구소
CPC classification number: B01D50/004 , B01D45/14 , B01D47/02
Abstract: 본 발명은 바이오 에어로졸 포집을 위한 축상유입형 습식 사이클론에 관한 것으로, 에어로졸이 함유된 기체가 유입되는 기체유입구가 형성된 몸통과, 기체에 원심력이 발생되도록 몸통 내부에 구비된 사이클론 날개와, 몸통 내부에서 외부로 돌출되도록 몸통에 구비된 와류발생관을 포함하며, 기존 포집기에 비하여 소형화되고 효율이 향상되는 효과가 있는 바이오 에어로졸 포집을 위한 축상유입형 습식 사이클론을 제공한다.
Abstract translation: 本发明涉及用于收集生物气溶胶的轴向入口式湿式旋风分离器。 更具体地,提供了一种用于收集生物气溶胶的轴向入口式湿式旋风分离器,其与现有的收集器相比被缩小,并且具有提高效率的效果。 此外,轴向入口式湿式旋风分离器包括:主体,其具有用于引入含有气溶胶的气体的入口孔; 设置在体内的旋风翼,以产生气体中的离心力; 以及设置在所述主体上以从所述主体的内部突出到所述外部的涡流生成管。
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