会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 6. 发明公开
    • 매질 중의 화학 화합물의 동일성 또는 비동일성 및 농도의결정 방법
    • 确定中间体化学化合物的特性,不合格和浓度的方法
    • KR1020080081192A
    • 2008-09-08
    • KR1020087018237
    • 2006-12-27
    • 바스프 에스이
    • 젠스,뢰디거밤바카리스,흐리스토스아흘러스,볼프강틸,에르빈
    • G01J3/28G01N21/64G01N21/31
    • G01J3/4406G01J3/02G01J3/0232G01J3/457G01J2001/4242G01N21/31G01N21/643G01N21/645G01N2021/6491G01N2201/129
    • The invention relates to a method for detecting at least one chemical compound V that is contained in a medium (312). Said method has a verification step (420), in which the presence of the compound V in the medium (312) is determined. In addition, the method has an analysis step (424), in which a concentration c of the chemical compound or compounds V is determined. The verification step comprises the following sub-steps: (a1) the medium (312) is irradiated with first analysis radiation (316) of a variable wavelength U, said wavelength U having at least two different values; (a2) a spectral response function A(U) is generated using the radiation (324) that has been absorbed and/or emitted and/or reflected and/or scattered by the medium (312), in response to the first analysis radiation (316); (a3) at least one spectral correlation function K(HU) is formed by comparing the spectral response function(s) A(U) with at least one model function R(U + HU), in which said model function(s) R(U) represent(s) a spectral measured function of a medium (312) that contains the chemical compound V and HU is a co-ordinate shift; (a4) the spectral correlation function(s) K(HU) is examined in a model identification step (418) and conclusions are drawn as to whether the chemical compound(s) V is or are contained in the medium (312). The analysis step (424) has the following sub-steps: (b1) the medium (312) is irradiated with at least second analysis radiation (318) that has at least one excitation wavelength UEX; (b2) at least one spectral analysis function B(UEX, URES) is generated using the radiation (326) of the response wavelength URES that has been absorbed and/or emitted and/or reflected and/or scattered by the medium (312), in response to the second analysis radiation (318) of wavelength UEX and conclusions concerning the concentration c are drawn.
    • 本发明涉及一种用于检测包含在介质(312)中的至少一种化合物V的方法。 所述方法具有确定步骤(420),其中化合物V存在于介质(312)中。 此外,该方法具有分析步骤(424),其中确定化合物或化合物V的浓度c。 验证步骤包括以下子步骤:(a1)用可变波长U的第一分析辐射(316)照射介质(312),所述波长U具有至少两个不同的值; (a2)响应于第一分析辐射(314),已经被介质(312)吸收和/或发射和/或发射和/或散射的辐射(324)产生光谱响应函数A(U) 316); (a3)通过将光谱响应函数A(U)与至少一个模型函数R(U + HU)进行比较来形成至少一个频谱相关函数K(HU),其中所述模型函数R (U)表示包含化合物V和HU是坐标位移的介质(312)的光谱测量功能; (a4)在模型识别步骤(418)中检查光谱相关函数K(HU),并且得出关于化合物V是或包含在介质(312)中的结论。 分析步骤(424)具有以下子步骤:(b1)用至少一个激发波长UEX的至少第二分析辐射(318)照射介质(312) (b2)使用由介质(312)吸收和/或发射和/或反射和/或散射的响应波长URES的辐射(326)产生至少一个光谱分析功能B(UEX,URES) ,响应于波长UEX的第二分析辐射(318)和关于浓度c的结论。
    • 9. 发明授权
    • 원거리 녹조 측정 시스템의 고출력 레이져 어셈블리 및 그의 방열 장치
    • 红潮和潮汐发生的远程监控系统,具有高功率er er组装和冷却系统
    • KR101504044B1
    • 2015-03-24
    • KR1020130153229
    • 2013-12-10
    • 동양하이테크산업주식회사
    • 신대정이준석김선용형기우형성훈
    • G01N21/00H01S5/024
    • G01N21/64G01N2021/6491G01N2201/06113
    • 본 발명은 원거리 녹조 측정 시스템의 고출력 레이져 어셈블리 및 그의 방열 장치에 관한 것으로서, 좀 더 상세하게는 고출력 레이져의 성능을 확보하며, 원거리에서 각각의 레이져 광원이 중첩하도록 5Cm 이내로 배치되고, 고출력의 레이져 다이오드의 방열은 레이져의 성능과 수명에 직접적인 영향을 미치므로, 콤펙트하며 효율적인 방열 구조를 가지는 원거리 녹조 측정 시스템의 고출력 레이져 어셈블리 및 그의 방열 장치에 관한 것이다. 본 발명에 따르면 고출력의 레이저를 발사하여 원거리 적조/녹조 측정 시스템의 측정 거리 향상과 측정 성능 향상이 가능하고, 열배출이 용이하고 크기가 작은 고출력 레이져의 구현을 통해 저가형 원거리 적조/녹조 측정 시스템 및 광학적인 원거리 측정 수단의 레이져 광원으로 활용이 가능하다.
    • 本发明涉及一种远距离绿藻测量系统及其散热装置的高功率激光组件,更具体地说,涉及远距离绿藻测量系统及其散热装置的高功率激光组件,其获得 大功率激光器的性能使每个激光光源排列在5厘米以内,使得激光光源与一定距离重叠,并且具有紧凑而有效的散热结构,因为大功率激光二极管的散热具有直接的效应 关于激光的性能和寿命。 本发明能够通过辐射大功率激光来提高遥远红潮/绿藻测量系统的测量距离和测量性能; 并通过实现容易放热,体积小的高功率激光器作为光学远程测量装置的激光光源和低价遥控红潮/绿藻测量系统。
    • 10. 发明公开
    • 자외선 경화 수지의 상태 추정 방법 및, 그의 제조 방법
    • 用于估算超紫外线固化树脂的方法及其制备方法
    • KR1020100087641A
    • 2010-08-05
    • KR1020100005761
    • 2010-01-21
    • 스미또모 가가꾸 가부시키가이샤
    • 아사노사토시카와조에유타
    • G01N21/64G01N21/33C08J3/28
    • G01N21/64C08J3/28G01N21/33G01N2021/6491
    • PURPOSE: A state estimation method and a manufacturing method for UV curable acrylate are provided to easily estimate the state of UV curable acrylate included in a base material which contains a material radiating fluorescence by ultraviolet irradiation. CONSTITUTION: A state estimation method for UV curable acrylate comprises the steps of: preparing UV curable acrylate included in a base material which contains a material radiating fluorescence by ultraviolet irradiation, irradiating to UV curable acrylate the UV ray having a wavelength at which the intensity of the fluorescence emitted from the material is less than the intensity of the fluorescence emitted from a photo-polymeric initiator, receiving the UV ray and measuring the fluorescence intensity at the wavelength, and estimating the state of the UV curable acrylate based on the measured fluorescence intensity.
    • 目的:提供一种紫外线固化丙烯酸酯的状态估计方法和制造方法,以容易地估计含有通过紫外线照射而辐射荧光的材料的基材中包含的UV固化丙烯酸酯的状态。 构成:紫外线固化丙烯酸酯的状态估计方法包括以下步骤:制备包含在包含通过紫外线照射发射荧光的材料的基材中的紫外线固化丙烯酸酯,向UV固化丙烯酸酯照射具有波长的紫外线, 从材料发射的荧光小于从光聚合物引发剂发射的荧光的强度,接收紫外线并测量波长处的荧光强度,并且基于测量的荧光强度估计UV可固化丙烯酸酯的状态 。