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
    • 1. 发明申请
    • DEVICE AND METHOD FOR APPLYING ELECTROMAGNETIC ENERGY TO A CONTAINER
    • 将电磁能量应用于集装箱的装置和方法
    • WO2012051198A1
    • 2012-04-19
    • PCT/US2011/055797
    • 2011-10-11
    • GOJI LTD.TORRES, EyalSELINGER, DanielATZMONY, DaniellaEINZIGER, PinchasRAPPEL, AmitGELBART, EliezerYAARI, IgalLIBMAN, Avner
    • TORRES, EyalSELINGER, DanielATZMONY, DaniellaEINZIGER, PinchasRAPPEL, AmitGELBART, EliezerYAARI, IgalLIBMAN, Avner
    • B65D81/34H05B6/64
    • H05B6/6408H05B6/6402H05B6/70H05B6/72H05B6/76H05B6/80
    • Some aspects of the invention may be directed to an apparatus and method for applying RF energy to containers. The containers (e.g., pots, tanks, vats, kettles, reactors, etc.) may contain an object to be heated or processed by EM energy. The object may be in the liquid phase, gas phase, solid phase or any combination of phases thereof. The apparatus may comprise an outer housing. Optionally the outer housing may be substantially opaque to RF energy. The apparatus may further comprise an inner housing disposed at least partially within the outer housing, wherein at least a portion of the inner housing is configured to transmit RF energy. The apparatus may include at least one radiating element configured to apply RF energy to an energy application zone within the inner housing. In some embodiments the at least one radiating element is located external to the inner housing, optionally between the inner housing and the outer housing. In some embodiments, the at least one radiating element may be activated and RF energy may be transmitted, via the at least one activated radiating element, to the object located within the energy application zone.
    • 本发明的一些方面可以涉及用于将RF能量施加到容器的装置和方法。 容器(例如,罐,罐,槽,水壶,反应器等)可以包含被加热或被EM能量处理的物体。 该物体可处于液相,气相,固相或其相的任何组合。 该装置可包括外壳。 可选地,外壳体可以对RF能量基本上是不透明的。 该装置还可以包括至少部分地设置在外壳体内的内壳体,其中内壳体的至少一部分被配置为传送RF能量。 该装置可以包括至少一个辐射元件,其被配置为将RF能量施加到内壳体内的能量施加区域。 在一些实施例中,至少一个辐射元件位于内壳体的外部,可选地位于内壳体和外壳体之间。 在一些实施例中,至少一个辐射元件可以被激活,并且RF能量可以经由至少一个激活的辐射元件传输到位于能量施加区域内的物体。
    • 6. 发明申请
    • PLASMON RESONANCE BOLOMETER FOR RADIATION DETECTION
    • 用于辐射检测的PLASMON共振测温仪
    • WO2008018082A3
    • 2009-04-30
    • PCT/IL2007001004
    • 2007-08-12
    • TECHNION RES & DEV FOUNDATIONRAZANSKY DANIELEINZIGER PINCHASADAM DANNEMIROVSKY YAELSHWARTZMAN LIOR
    • RAZANSKY DANIELEINZIGER PINCHASADAM DANNEMIROVSKY YAELSHWARTZMAN LIOR
    • G01J5/00H01L27/14
    • G01J5/58G01J5/08G01J5/0853G01J5/20
    • The current invention provides a method for improving the sesitivity of bolometric detection by providing improved electromagnetic power/energy absorption. In addition to its role in significantly improving the performance of conventional conducting-film bolometric detection elements, the method suggests application of plasmon resonance absorption for efficient thermal detection and imaging of far-field radiation using the Surface Plasmon Resonance (SPR) and the herein introduced Cavity Plasmone Resonance (CPR) phenomena. The latter offers detection characteristics, including good frequency sensitivity, intrinsic spatial (angular) selectivity without focusing lenses, wide tunability over both infrared and visible light domains, high responsivity and miniaturization capabiliies. As compared to SPR, the CPR- type devices offer an incresed flexibility over wide ranges of wavelengths, bandwidths, and device dimensions. Both CPR and SPR occur in metallic films, which are characterized by high thermal diffusivity essential for fast bolometric response.
    • 本发明提供了一种通过提供改进的电磁功率/能量吸收来改善测温检测的振动的方法。 除了在显着提高常规导电膜辐射检测元件性能的作用之外,该方法还提出了使用表面等离子体共振(SPR)和等离子体共振吸收来进行远场辐射的有效热检测和成像的应用。 腔积聚共振(CPR)现象。 后者提供检测特性,包括良好的频率灵敏度,无聚焦透镜的内在空间(角度)选择性,在红外和可见光区域都具有广泛的可调性,高响应度和小型化能力。 与SPR相比,CPR型器件在宽范围的波长,带宽和器件尺寸上提供了灵活性。 CPR和SPR均发生在金属膜中,其特征在于快速辐射响应所必需的高热扩散率。
    • 7. 发明申请
    • THERMAL DETECTION AND IMAGING OF ELECTROMAGNETIC RADIATION
    • 电磁辐射的热检测和成像
    • WO2008018082A2
    • 2008-02-14
    • PCT/IL2007/001004
    • 2007-08-12
    • TECHNION - RESEARCH & DEVELOPMENT FOUNDATION LTDRAZANSKY, DanielEINZIGER, PinchasADAM, DanNEMIROVSKY, YaelSHWARTZMAN, Lior
    • RAZANSKY, DanielEINZIGER, PinchasADAM, DanNEMIROVSKY, YaelSHWARTZMAN, Lior
    • G01J5/00
    • G01J5/58G01J5/08G01J5/0853G01J5/20
    • The current invention provides a method for improving the sesitivity of bolometric detection by providing improved electromagnetic power/energy absorption. In addition to its role in significantly improving the performance of conventional conducting-film bolometric detection elements, the method suggests application of plasmon resonance absorption for efficient thermal detection and imaging of far-field radiation using the Surface Plasmon Resonance (SPR) and the herein introduced Cavity Plasmone Resonance (CPR) phenomena. The latter offers detection characteristics, including good frequency sensitivity, intrinsic spatial (angular) selectivity without focusing lenses, wide tunability over both infrared and visible light domains, high responsivity and miniaturization capabiliies. As compared to SPR, the CPR- type devices offer an incresed flexibility over wide ranges of wavelengths, bandwidths, and device dimensions. Both CPR and SPR occur in metallic films, which are characterized by high thermal diffusivity essential for fast bolometric response.
    • 本发明提供了一种通过提供改进的电磁功率/能量吸收来改善测温检测的振动的方法。 除了在显着提高常规导电膜辐射检测元件性能的作用之外,该方法还提出了使用表面等离子体共振(SPR)和等离子体共振吸收来进行远场辐射的有效热检测和成像的应用 腔积聚共振(CPR)现象。 后者提供检测特性,包括良好的频率灵敏度,无聚焦透镜的内在空间(角度)选择性,在红外和可见光区域都具有广泛的可调性,高响应度和小型化能力。 与SPR相比,CPR型器件在宽范围的波长,带宽和器件尺寸上提供了灵活性。 CPR和SPR均发生在金属膜中,其特征在于快速辐射响应所必需的高热扩散率。