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1.发明专利
公开(公告)号:KR102225664B1
公开(公告)日:2021-03-10
申请号:KR1020190093317A
申请日:2019-07-31
Applicant: 국방과학연구소
CPC classification number: G01N15/0211 , G01N1/22 , G01N21/47 , G01N21/64
Abstract: 본 발명은 미세입자 검출장치에 관한 것으로, 더욱 상세하게는 외부로부터 유입되는 공기의 주변으로 청정공기를 공급하여 광학장치의 오염을 막도록 하면서, 청정공기는 미세입자의 검출을 위해 외부로부터 유입되는 공기를 순환, 필터링하여 제공하도록 함으로써 장치의 소형화 및 간소화, 저전력의 구동이 가능하도록 하며, 하나의 순환펌프에 의해 외부공기의 유입 및 청정공기의 순환이 이루어지도록 함으로써, 소모되는 전력을 최소화할 수 있도록 하는 저전력 방식의 청정공기 순환을 이용한 미세입자 검출장치에 관한 것이다.
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公开(公告)号:KR1020210015052A
公开(公告)日:2021-02-10
申请号:KR1020190093317
申请日:2019-07-31
Applicant: 국방과학연구소
Abstract: 본발명은미세입자검출장치에관한것으로, 더욱상세하게는외부로부터유입되는공기의주변으로청정공기를공급하여광학장치의오염을막도록하면서, 청정공기는미세입자의검출을위해외부로부터유입되는공기를순환, 필터링하여제공하도록함으로써장치의소형화및 간소화, 저전력의구동이가능하도록하며, 하나의순환펌프에의해외부공기의유입및 청정공기의순환이이루어지도록함으로써, 소모되는전력을최소화할수 있도록하는저전력방식의청정공기순환을이용한미세입자검출장치에관한것이다.
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公开(公告)号:KR100763768B1
公开(公告)日:2007-10-08
申请号:KR1020060032972
申请日:2006-04-11
Applicant: 국방과학연구소
IPC: G01N1/20
Abstract: A positive pressure-type gas sample collector and an operation system thereof using wireless communication are provided to check the collecting state of a collecting bag in real time by mounting the collecting bag outside without keeping an internal vacuum condition. A positive pressure-type gas sample collector comprises a gas intake pipe(21), a flow rate control valve(22), a gas pump(23), a manifold(24), at least one solenoid valve(25), a microprocessor(27), a case, and at least one collecting bag(26). The gas intake pipe is installed to intake a gas sample. The flow rate control valve is mounted to control the quantity of gas passing through the gas intake pipe. The gas pump provides intake pressure to the gas intake pipe at one side and discharge pressure at the other side. The manifold is formed with an inlet receiving the gas sample discharged from the other side of the gas pump, and at least one outlet outputting at least one passage. The solenoid valve is mounted to open and close the outlet. The microprocessor controls the operation of at least one of the flow rate control valve, the gas pump, and the solenoid valve. The case is mounted with at least one of the gas intake pipe, the flow rate control valve, the gas pump, the manifold, the solenoid valve, and the microprocessor inside. The collecting bag is connected to each outlet of the manifold at an outside of the case to keep the gas sample.
Abstract translation: 提供使用无线通信的正压式气体收集器及其操作系统,通过将收集袋安装在外部而不保持内部真空条件来实时检查收集袋的收集状态。 正压式气体样品收集器包括进气管(21),流量控制阀(22),气泵(23),歧管(24),至少一个电磁阀(25),微处理器 (27),壳体和至少一个收集袋(26)。 安装进气管以吸入气体样品。 安装流量控制阀以控制通过进气管的气体的量。 气泵在一侧向进气管提供进气压力,另一侧为排气压力。 歧管形成有入口,其接收从气泵的另一侧排出的气体样品,以及输出至少一个通道的至少一个出口。 安装电磁阀以打开和关闭出口。 微处理器控制流量控制阀,气泵和电磁阀中的至少一个的操作。 该壳体与内部的进气管,流量控制阀,气泵,歧管,电磁阀和微处理器中的至少一个一起安装。 收集袋在外壳的外部连接到歧管的每个出口,以保持气体样品。
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公开(公告)号:KR1020020044703A
公开(公告)日:2002-06-19
申请号:KR1020000073707
申请日:2000-12-06
Applicant: 국방과학연구소
IPC: G01N3/04
Abstract: PURPOSE: A sample holder is provided to achieve improved reliability for the test by protecting tap of sample from fracture caused when the tension test temperature is lower than the glass transition temperature. CONSTITUTION: A sample holder(21) is characterized in that a rubber pad(22) is attached to the surface of the sample holder contacting a sample(23) so as to measure the tensile force of the sample at a temperature lower than a glass transition temperature. The sample holder has a groove formed at the surface of the sample holder contacting the sample, wherein the groove is formed into a depth corresponding to the thickness of the rubber pad. Alternatively, the sample holder has a reinforcing plate inserted to the side surface of the sample holder so as to prevent the sample from being distorted or escaped during tension test.
Abstract translation: 目的:提供样品架,以便在拉伸试验温度低于玻璃化转变温度时,通过保护样品免受断裂引起的试验的可靠性。 构成:样品架(21)的特征在于,将橡胶垫(22)附接到样品架的与样品(23)接触的表面,以便在低于玻璃的温度下测量样品的拉伸力 转变温度。 样品架具有形成在与样品接触的样品架的表面处的凹槽,其中凹槽形成为与橡胶垫的厚度对应的深度。 或者,样品保持器具有插入样品保持器的侧表面的加强板,以防止样品在张力测试期间变形或逸出。
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Patent Agency Ranking
公开(公告)号:KR102225664B1
公开(公告)日:2021-03-10
申请号:KR1020190093317
申请日:2019-07-31
Applicant: 국방과학연구소
Abstract: 본발명은미세입자검출장치에관한것으로, 더욱상세하게는외부로부터유입되는공기의주변으로청정공기를공급하여광학장치의오염을막도록하면서, 청정공기는미세입자의검출을위해외부로부터유입되는공기를순환, 필터링하여제공하도록함으로써장치의소형화및 간소화, 저전력의구동이가능하도록하며, 하나의순환펌프에의해외부공기의유입및 청정공기의순환이이루어지도록함으로써, 소모되는전력을최소화할수 있도록하는저전력방식의청정공기순환을이용한미세입자검출장치에관한것이다.
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公开(公告)号:KR1020140110511A
公开(公告)日:2014-09-17
申请号:KR1020130024975
申请日:2013-03-08
Applicant: 국방과학연구소
CPC classification number: B01J20/04 , B01J20/0229 , B01J20/103 , B01J20/28007 , B01J20/3042 , B82Y40/00
Abstract: The present invention relates to a complex containing metal hydroxide nanoparticles formed on hydrophilic support particles, and to a method for manufacturing the same. The complex manufactured by the manufacturing method of the present invention provides a useful advantage of improving adsorption performance compared with a complex manufactured by an existing method.
Abstract translation: 本发明涉及在亲水性载体颗粒上形成的含金属氢氧化物纳米颗粒的复合体及其制造方法。 通过本发明的制造方法制造的复合物与通过现有方法制造的复合物相比提供了改善吸附性能的有用优点。
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公开(公告)号:KR102214552B1
公开(公告)日:2021-02-09
申请号:KR1020190124991
申请日:2019-10-10
Applicant: 국방과학연구소
Abstract: 본발명은소형형광센서장치에관한것으로, 더욱상세하게는광원에의해조사되는빛이복수의확산렌즈부에의해확산되도록하고, 확산된빛이복수의집광렌즈부에의해하나의초점에서모여지도록하여, 광원과렌즈의거리및 초점거리와초점면적을줄일수 있도록함으로써, 장치의소형화및 집광효율을높일수 있도록하고, 확산렌즈부및 집광렌즈부의형상을최적화하도록함으로써, 자외선광원부의광학효율을극대화할수 있도록하는미세입자탐지용소형형광센서장치에관한것이다.
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